Standards for Success
Understanding University Success
A project of the Association of American Universities
and The Pew Charitable Trusts
Perspectives on Standards for Success
Intelligently conceived, comprehensive, meticulously researched, detailed and effectively organized, Standards for
Success provides a major step forward in tightening the links between high schools and universities and thus
increasing the chances for both academic achievement and personal satisfaction for our nation's students. Faculties,
too, on both sides of the freshman class will profit from these thoughtful definitions of teaching and learning
standards.
M. Gilbert Porter, Ph.D.
Associate Vice Provost Undergraduate Studies,
University of Missouri
As a parent of two high school boys, I applaud Standards for Success for providing realistic measurements in each
area of study which will help me guide my sons toward a successful college experience.
Susan Franzella
High School Parent, Carlmont High School
I commend Standards for Success for a thoughtful and thought provoking document.
Dr. Jared L. Cohon, Ph.D.
President, Carnegie Mellon University
At Crescenta Valley High School, we believe our responsibility for a student's success extends beyond high school
graduation. We welcome the Knowledge and Skills for University Success. We know that by studying the standards
in English, math, science, social science and second languages—and aligning our curriculum—we will better
prepare our students for the transition to college.
Linda Evans
Co-Principal, Crescenta Valley High School
We commend this effort to build bridges for students to cross safely and successfully from high school to college.
Virginia Sapiro
Associate Vice Chancellor for Teaching and Learning,
University of Wisconsin
I will make sure all school leaders in my district know about Standards for Success. It is important that elementary
as well as secondary principals are aware of this resource. Just as reducing the dropout rate requires the energy and
attention of all K-12 educators, so does ensuring the academic success of all our students. I will make sure school
counselors, teachers and parents are familiar with this resource as well. Copies should be available at curriculum
evenings, parent clubs, college information evenings, counseling centers and Back to School Nights.
Suzanne Cusick
Assistant Superintendent, Hillsboro School District
With over 90% of the students in our district going on to two- and four-year colleges, we know our primary job is
making sure students have the knowledge and skills they need to earn college degrees. Unfortunately, we have never
had the direction from colleges and universities we need to align our work with theirs. Standards for Success is a
very welcome resource. I look forward to studying the work carefully with curriculum developers, principals, and
teachers and using it extensively to guide our ongoing work. The K-16 movement is about to take a major step
forward thanks to this publication.
Michael Riley
Superintendent, Bellevue School District
Understanding University Success
A report from Standards for Success
A project of the Association of American Universities
and The Pew Charitable Trusts
David T. Conley, Ph.D.
Director
Copyright © 2003, University of Oregon
Published by Center for Educational Policy Research, Eugene, Oregon
Printed in the United States of America
All rights reserved. No part of this book may be reproduced in any form or by any means, electronic or
mechanical, including photocopying, recording, or by any information storage and retrieval system, without
permission in writing from the publisher.
Schools may make copies of the Knowledge and Skills for University Success for the sole purpose of
information and dissemination to school staff, students and their parents.
For more information or to order additional copies of this book, the S4S CD-ROM or the University Work
Sample book, contact:
Center for Educational Policy Research
720 E. 13th Ave., Suite 201, Eugene, OR 97401
Web: http://www.s4s.org
T: (541) 346-6153
Toll Free: (877) 766-2279
Cover Photo: Jack Liu
F: (541)346-6154
Table of Contents
Introduction . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8
Participants. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11
English . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 17
Foundations . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 17
Standards . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 22
Mathematics . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 29
Foundations . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 29
Standards . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 31
Natural Sciences. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 39
Foundations . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 39
Standards . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 42
Social Sciences . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 55
Foundations . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 55
Standards . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 59
Second Languages . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 67
Foundations . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 67
Standards . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 68
The Arts . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 73
Foundations . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 73
Standards . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 75
8 Introduction
A project of the AAU & The Pew Charitable Trusts
Understanding
University Success
This document is designed to answer one
question: What must students know and be
able to do in order to succeed in entry-level
university courses? It is a difficult question
because admissions requirements only hint
at what is actually expected once students
reach college. Traditional measures of high
school achievement do not necessarily
address this question very well either
because they reflect each individual high
school’s notions of what constitutes college
readiness. Even the best, brightest and most
diligent high school students who easily
meet admission requirements may find
themselves struggling in entry-level courses.
They may be eligible for admission and still
not be prepared to succeed.
Knowledge and Skills for University
Success, developed by Standards for Success
(S4S), is the result of a two-year study in
which more than 400 faculty and staff
members from twenty research universities,
all members of the Association of American
Universities (AAU), participated in extensive
meetings and reviews designed to identify
what students must do to succeed in entrylevel courses at their institutions. National
academic content standards documents were
analyzed and used for comparison. Multiple
peer reviews were employed to hone the
standards and ensure their validity, while
consultants with expertise in standards
development contributed suggestions for
improvement. The resulting statements
represent the most comprehensive and
thoroughly grounded set of standards for
college success yet developed.
The standards presented here are designed
to create a new way to view college
preparation. The standards, in combination
with the accompanying CD-ROM and the
S4S website, provide a road map of the
content knowledge and habits of mind that
are valued by leading research universities in
the United States.
The faculty and staff members who
participated in the process of developing
these standards represent a wide range of
academic viewpoints. One of the most
dominant themes raised by participants is the
importance of the habits of mind students
develop in high school and bring with them
to university studies. These habits are
considered by many faculty members to be
more important than specific content
knowledge. The habits of mind include
critical thinking, analytic thinking and
problem solving; an inquisitive nature and
interest in taking advantage of what a research
university has to offer; the willingness to
accept critical feedback and to adjust based on
such feedback; openness to possible failures
from time to time; and the ability and desire
to cope with frustrating and ambiguous
learning tasks. Other critical skills include
the ability to express one’s self in writing
and orally in a clear and convincing
fashion; to discern the relative importance
and credibility of various sources of
information; to draw inferences and reach
conclusions independently; and to use
technology as a tool to assist the learning
process rather than as a crutch.
The specific content knowledge identified
in this document should be considered in
relation to these overarching attributes and
skills. Understanding and mastery of the
content knowledge specified here is achieved
Introduction 9
A report from Standards for Success
through the exercise of broader cognitive
skills. It is not enough simply to know
something; the learner must possess the
ability to do something with that
knowledge, whether it is to solve a problem,
reach a conclusion or present a point of
view. This plexus of content knowledge and
cognitive skills is what an education at an
American research university (and many
other institutions of higher education)
seeks to develop.
“Success” as defined by these standards
means the ability to do well enough in
college entry-level core academic courses to
meet general education requirements and to
continue on to major in a particular area.
These two levels of success are denoted here
by identifying separate standards: those
intended for all students versus those
intended for students wishing to major in
the particular area of study.
Success in a university is different from
success in high school in another important
way.
Universities
facilitate
greater
specialization than high schools. Therefore,
some students may find that they are able
to succeed in college even though their
mastery in some areas of Knowledge and
Skills for University Success is less well
developed than in others. Students do not
need to master all standards contained in
this document at the same level. However,
the more of the standards that a student has
mastered, the more options the student will
have and the more successful the student is
likely to be during the all-important initial
year of college.
This document comprises six sections,
each representing an academic content area.
English, mathematics and second languages
capture a relatively clear and distinct set of
attributes associated with each respective
discipline. Natural sciences and social
sciences reflect the complexity of these areas,
each of which encompasses a series of
distinct academic disciplines. The standards
in these two content areas are grouped into
the skills that cut across the
disciplines within the area
along with accompanying
listings of the key knowledge
attributes for a number of
disciplines within the area.
The arts section adopts a
unique approach, due to the
fact that arts classes do not fit
as easily into the model of
entry-level classes. Arts
courses may be experienced
for the first time by students
at any point in their
academic careers, making it
more difficult to identify
courses associated with firstDavid T. Conley, Ph.D.,
Director, Standards for Success
year students. Additionally,
the arts are uniquely complex
in a number of other ways. First, the arts
can be divided initially into the
performing arts, where one performs or
creates an artistic product; and arts
appreciation, where one learns to enjoy or
understand the arts. Second, areas within
the arts require distinctly different
technical skills. Music, art, dance and
theatre have more distinct skill sets and
knowledge than do biology and chemistry,
or geography and history. Therefore, the
arts standards are organized by area based
on abilities derived from national arts
standards documents and the expressed
values of arts faculty.
The knowledge and skills standards
enumerated in this document are general
statements of expectations. The level of
challenge required to meet any particular
standard may be somewhat unclear without
further definition. The necessary skill level
could be interpreted anywhere from an
entering student to a college graduate. To
help clarify the level of expectation, a
companion document includes examples of
the work students produce when they meet
the standard. The university work sample
document is available by order (see page 6
10 Introduction
A project of the AAU & The Pew Charitable Trusts
and grades to knowledge and skills. While
perfect agreement may never be achieved,
the process of seeking agreement will help
clarify for students and teachers alike, at
both the high school and postsecondary
levels, what is expected and needed for
success in college. To the degree that these
materials further such a process, they will
have achieved their goal.
As more and more states adopt academic
content standards and accompanying
assessment systems, the requirements for
postsecondary success become increasingly
important to understand. State high school
standards and tests should have some
relationship to university success, given that
close to two-thirds of American high school
graduates go on directly to some form of
postsecondary education. Most importantly,
the skills students develop to do well on state
assessments should bear some relationship
to the knowledge and skills for university
success. The standards contained in this
document are designed to help create a
better connection between high school and
university expectations.
Whether yo u are a student, parent,
teacher o r faculty member, explo re these
materials in o rder to gain greater insight
into what is required fo r university success.
I enco urage you to make use o f these
fo r details) . Fo r En g l i sh , math, natural
materials in o rder to help impro ve the
scien ces, so cial scien ces an d seco nd
preparatio n and success o f students as they
languages, the d o cum ent co n tain s a
mo ve fro m high scho o l to co llege.
syllabus, assignment and wo rk sample.
American research universities are
complex, diverse environments. Not every
faculty member will necessarily agree with
every one of the Knowledge and Skills for
University Success standards. In fact, spirited
debate typifies American higher education.
Therefore, the standards enumerated here
should be considered a starting point for a
continuing dialog about what is expected of
entering students. This dialog will help shift
the focus of discussion from course titles
David T. Conley, Ph.D.
Director
Standards for Success
Participants 11
A report from Standards for Success
Participants
Founding Partners
Association of American
Universities
The Pew Charitable Trusts
Sponsoring
Universities
Harvard University
Indiana University
Massachusetts Institute of
Technology
New York University
Pennsylvania State University
Rice University
Rutgers, The State University
of New Jersey
University of California,
Berkeley
University of Illinois
The University of Iowa
University of Michigan
University of Minnesota
University of Missouri
University of Nebraska
University of Oregon
University of Southern
California
University of Wisconsin
Endorsing
Universities
Carnegie Mellon University
Case Western Reserve
University
Duke University
Stanford University
University of North Carolina
University of California,
Los Angeles
University of Maryland
University of Virginia
Washington University in
St. Louis
Project Advisory
Board
(Affiliation at time of
participation)
Betsy Brand, Co-Director,
American Youth Policy Forum
Donald Carstensen,
Vice-President,
American College Testing
Chris Cross, former president,
Council for Basic Education
Mary Sue Coleman, Ph.D.,
President,
The University of Iowa
Frederic Dietrich, Ph.D.,
Vice-President,
The College Board
Melvin George, Ph.D.,
President Emeritus,
University of
Missouri
Gerardo Gonzalez, Ph.D.,
Dean, School of Education,
Indiana University
Michael Kirst, Ph.D.,
Professor,
School of Education,
Stanford University
Ronald Latanision, Ph.D.,
Chair,
Professor, Material Sciences
and Engineering,
Massachusetts Institute
of Technology
David Loganecker, Ph.D.,
Executive Director,
Western Interstate
Commission for Higher
Education
Wayne Martin, Ph.D.,
Director, State Education
Assessment Center, Council of
Chief State School Officers
Esther Rodriguez, J.D.,
Director of Development,
Education Commission
of the States
Dale Vigil, Ph.D.,
Area Superintendent,
Los Angeles Unified
School District
Tim Waters, Ed.D.,
C.E.O., Mid-continent
Research for Education and
Learning
Robert Weisbuch, Ph.D.,
President, The Woodrow
Wilson National Fellowship
Foundation
Duncan Wyse, Ph.D.,
President,
Oregon Business Council
Admissions Officers
Advisory Group
(Affiliation at time of
participation)
Michael Behnke, Ph.D.,
Vice-President,
University of Chicago
Jack Blackburn,
Dean of Admissions,
University of Virginia
Bill Kolb,
Director of Admissions,
University of Florida
Bob Laird, Ph.D., Chair,
former director of
undergraduate admissions,
University of California,
Berkeley
Gigi Lamens,
Vice-President of Enrollment
Management, Hofstra
University
Jerry Lucido, Ph.D.,
Vice Provost for Enrollment
Management and
Director of Admissions,
University of North Carolina
Martha Pitts,
Director of Admissions,
University of Oregon
Wayne Sigler, Ph.D.,
Director of Admissions,
University of Minnesota
Ted Spencer, Ph.D.,
Director of Admissions,
University of Michigan
Ruth Vedvik, Ph.D.,
Director of Admissions,
University of Illinois
Bruce Walker, Ph.D.,
Director of Admissions,
Associate Vice-President
for Student Affairs,
University of Texas
Standards for Success
David T. Conley, Ph.D.,
Director
Terri Heath, Ph.D.,
Research Associate and
Project Coordinator
Françoise Bodone, Ph.D.,
Research Associate and
Data Analysis Coordinator
12 Participants
A project of the AAU & The Pew Charitable Trusts
Standards for Success Cont’d
R. Sam Larson, Ph.D.,
Research Associate and
Assessment Database
Coordinator
Jeff DeFranco, M.S.,
Research Assistant and
Public Relations Coordinator
Jen Katz-Buonincontro, M.F.A.,
Research Assistant
Eric-Michael MacCionnaith, M.S.,
Research Assistant
Laura Bennett, B.A.,
Art Director
Susan Primak, B.S.,
Administrative Officer
Matt Ashmore, B.A.,
Office Assistant
Dylan Vogt,
Information Technology
Michael Kirst, Ph.D.,
Senior Project Associate,
Stanford University
Andrea Venezia, Ph.D.,
Senior Project Associate,
Stanford University
Alyssa O'Brien, Ph.D.,
Consultant,
Stanford University
Paula Razquin, Ph.D.,
Research Assistant,
Stanford University
Tiffany Smith,
Research Assistant,
Stanford University
Julie Slama, Facilitator,
Stanford University
Autumn Zindel,
Financial Coordinator,
Stanford University
John Kendall, Ph.D.,
Mid-continent Research
for Education and Learning
Special Thanks to:
Shauna McKee, Administration
Ryan Bowlby, Information
Technology
Apryl Smith, Research
Chuck Theobald, Information
Technology
Dana Watrud,
Project Coordinator
Sony Disc Manufacturing
National Conversation
Participants
Listed below are participants in
the National Conversation on Key
Knowledge and Skills for
University Success conducted at
nine AAU universities between
January, 2001 and June, 2002. This
list was compiled based on the
registration sheet received from
each National Conversation host
campus. Participants include both
teaching and administrative
faculty members with on-campus
involvement in or responsibility
for the education of entering
students.
*= Additional thanks to the
campus liaisons who gave many
hours of their time organizing
meetings of the National
Conversation at their universities.
Richard S. Brown, Ph.D.,
Assistant Professor
Director, Center for Research
in Educational Assessment
and Measurement,
University of California, Irvine
Bob Laird, Ph.D., former director
of undergraduate admissions,
University of California, Berkeley
Wayne Newberger,
former associate superintendent
for assessment,
Oregon Department
of Education
Indiana University
Purdue University
at Indianapolis
Lisa Angermeier-Howard
Beth Berghoff
Cindy Borgmann
Judy Carlson
Steve Fox
Jacob Jayanthi
Betty Jones
Marvin Kemple
Bob Osgood
Mary Glenn Rinne
Herman Saatkamp, Jr.
Phil Scarpino
David Stocum
Scott Weeden
Marianne Wokeck
Association of American
Universities
Massachusetts Institute
of Technology
Kathy Bailey Mathae
Jeanne Bamberger
John Belcher
Lori Breslow
Gene Brown
Phillip L. Clay
Peter Dourmashkin
Peggy Enders
Mary Enterline
Diana Henderson
Betsy Hicks
John Hildebidle
David Jerison
Marilee Jones
Eric Klopfer
Paul Lagace
Ron Latanision
Jeffrey Meldman
Haynes Miller
Heidi Nepf
Julie Norman
Brown University
Project Consultants
Jack Cummings
Paulette Dilworth
Enrique Galindo
Gerardo Gonzalez
Pam Hanratty
Russ Hanson
Bill Harwood*
Chris Haynes
Janet Johnson
David Kinman
Diana Lambdin
Frank Lester
Joan Pong Linton
James Madison
Dan Maki
Lissa May Fleming
Sharon O'Bryan
Jennifer Robinson
Shelley Sheila McDermott-Sipe
Kumble R. Subbaswamy
Robert Shaw
David Targan
Katharine Wilson
Harvard University
Daniel Goroff
Indiana University,
Bloomington
Robert Appelman
Scott Baldridge
Alan Bender
J. Jose Bonner
Myles Brand
Catherine Brown
Participants 13
A report from Standards for Success
Paul Parravano*
Robert Redwine
Candace Royer
Arthur Steinberg
Gilbert Strang
Leon Trilling
Kim Vandiver
Joseph Rosenstein
Karen Smith
James Swenson
Corinne Webb
Piper Williams
Calvin Yu
The University of Iowa
New York University
Andre Adler
Lynne Brown*
Burton Budick
Kimberlee Campbell
Darlene Forrest
Frederick Greenleaf
John Halpin
Lynne Haney
Trace Jordan
Cyrus Patell
Vincent Renzi
Matthew Santirocco
John Sexton
Otto Sonntag*
Regina Syquia
Pennsylvania State
University
Martha Aynardi
Sandra Bargainnier
James Beierlein
David Bender
Ingrid Blood*
Helen Caffrey
Tineke Cunning
Jacqueline Esposito
Carol German
Marianne Goodfellow
Billie Jones
Joseph Lambert
James Levin
Lisa Morris
Jon Olson
Horst Von Dorpowski
Barbara Wade
Anthony William
Ronald Zigler
Rutgers, The State
University of New Jersey
Lynne Allen
Scott Cagenello
Mary Ann Cancio
Cary Cherniss
Susan Forman*
Pat Grove
Gregory Herzog
Lewis Hirsch
Ann Jurecic
Frances L. Lawrence
Richard Miller
Margaret Persin
Dan Anderson
Ken Atkinson
Victor Camillo
Mary Sue Coleman
Laurie Croft
Sandra Damico
Carolyn Dyer
Kathleen Farrell
Gary Fischer
Patricia Folsom
Marsha Forys
John Fry
Jon Garfinkel
Jane Gay
Forrest Holly
Rex Honey
Geoffrey Hope
Beth Ingram
Douglas Jones
Craig Kletzing
Brenda Leicht
Kevin Leicht
Yi Li
Carolyn Lieberg
James Lindberg
Judith Liskin-Gasparro
Lola Lopes*
David Manderscheid
Roberta Marvin
Debra Miller
Paul Muhly
Alan Nagel
Betsy Palmer
Lynn Pringle
Roland Racevskis
Tom Rocklin
Christopher Roy
Leonard Sandler
Helen Schartz
James Schmeling
Nancy Schneider
Alberto Segre
Carol Severino
Jonathan Simon
John Soloski
Keith Stroyan
Downing Thomas
Mary Trachsel
Shaun Vecera
Paul Windschitl
Emil Rinderspacher
University of California,
Berkeley
Ani Adhikari
Gregory Aponte
Robert M. Berdahl
Steven Chin
Martin Covington
Mary Dubitzky
Lynne Frame
Barbara Gross-Davis
Judith Gruber
Ole Hald
Jane Hammons
Brian Harvey
Robert Jacobsen
Caroline Kane
Richard Kern
Liza Knapp
Robert Knapp
Claire Kramsch
Michael Mascuch
Christina Maslach*
Daniel Melia
Stuart Russell
Cynthia Schrager
Jean Schultz
Angelica Stacy
Cara Stanley
Philip Stark
Steve Tollefson
Mark Wilson
University of California,
Davis
Henry Alder
Joseph Kiskis
Patricia Turner
University of California,
Irvine
Michael Dennin
Patricia Hartz
Susan Jarratt
David Kay
University of California,
Los Angeles
Lucy Blackmar
Greg Kendrick
Marc Levis
University of California,
Riverside
Albert Stralka
University of California,
Santa Barbara
Britt Andreatta
14 Participants
A project of the AAU & The Pew Charitable Trusts
National Conversation Cont’d
University of California,
Santa Cruz
Judith Wanhala
Joel Weinsheimer
Joyce Weinsheimer
Steve Yussen
Lynda Goff
University of Missouri
University of Minnesota
Richard Beach
Andrea Berlin
Lillian Bridwell-Bowles
Paula Brugge
Robert H. Bruininks
Mark Bultmann
Tom Clayton
Laura Coffin Koch
Terence Collins
Arnold Cutler
Linda Ellinger*
Bert Fristedt
Bill Ganzlin
Jill Gidmark
Larry Gray
George Greene
Tim Gustafson
Ken Heller
Rudy Hernandez
Gordon Hirsch
Peter Hudleston
Alan Hunter
Naresh Jain
Kathy Johnson
Patricia Jones Whyte
Chris Kearns
Betsy Kerr
Harvey Keynes
Len Kuhi
Jim Leger
Kate Maple
Judith Martin
Charlotte Melin
Carolyn Nayematsu
Chris Paola
Claudia Parliament
Robert Pepin
Kathie Peterson
Sandra Peterson
Lou Pignolet
Tom Post
Paula Rabinowitz
Luis Ramos-Garcia
Gerald Rinehart
Shelly Rodgers
Jenise Rowekamp
Ed Schiappa
Eric Sheppard
David Shupe
Wayne Sigler
Geoffrey Sirc
Eileen Sivert
Richard Skaggs
Craig Swan
Art Walzer
Sandra Abell
John Adams
Erma Ballenger
Lloyd Barrow
John Beem
Pam Benoit
Steve Borgelt
Martin Camargo
Meera Chandrasekhar
Marilyn Coleman
Marilyn Cummins
Suzanne Currence
Susan Daniels
William Dawson
Michael Devaney
Michael Finke
Louanna Furbee
Magdalena Garcia-Pinto
Mel George
Theresa Goedeke
Richard Hardy
Suzette Heiman
Richard Hessler
Daryl Hobbs
Elaine Hocks
Emily Holt-Foerst
Douglas Hunt
John Iverson
Joe Johnston
Steve Keller
Marvin Lewis
Kay Libbus
Gail Ludwig
Patrick Market
Peter Markie
Joel Maruniak
Jill McReynolds
Andrew Melnyk
Neil Minturn
Phyllis Moore
Johnetta Morrison
Peter Motavalli
Mary Jo Muratore
Pat Okker
Stuart Palonsky
Ira Papick
Martha Patton
Glenn Pierce
Gil Porter*
Michael Porter
Jill Raitt
Don Ranly
Marcus Rautman
Clyde Ruffin
Kimberly Sallee
David Schenker
Benyamin Schwarz
Dennis Sentilles
Wendy Sims
Jo Stealey
Marty Townsend
David Trinklein
Randy Vessell
Richard Wallace
Chris Weisbrook
Sharon Welch
Dale Wilcox
Jeffrey Williams
Warren Zahler
Bonnie Zelenak
Flore Zephir
University of Oregon
James Arnold
Melinda Beane
Jason Bakanoff-Ellis
Jack Bennett
Tricia Bevans
Jim Buch
Cristina Calhoon
Brett Clark
Suzanne Clark
George Cusack
Ronald Davies
Robert Davis
Maria De La Torre
Dianne Dugaw
James Earl
Paula Ellister
Hilary Fisher
James Florendo
Dave Frohnmayer
Meredith Gall
Carla Gary
Roxanne Gerbrandt
Hilary Gerdes
Nancy Goldschmidt
Evelyn Gould
John Hardwick
Susan Hardwick
Diane Hawley
Charles Hunt
Inga Johnson
Linda Kintz
Michel Kovcholovsky
Jon Kujawa
Susan Lesyk
Shlomo Libeskind
Dean Livelybrooks
Glenn May
Margaret McBride
David McDonald
Mark Dean Meritt
Candace Montoya
John Moseley
Sayo Murcia
John Nicols
Lisa Oberbroeckling
Participants 15
A report from Standards for Success
Marilyn Olson
Lyllye Parker
Bert Pooth
John Postlethwait
Martha Ravits
Matt Rocha
Laurie Rodgers
Martin Saar
Joel Schoening
James Schombert
Paul Simonds
Jessica Sklar
Marliss Strange
Ron Swisher
Sasha Tavenner Kruger
Christine Tell
Lora Vess
Holly Zanville
Robert Zimmerman
University of Wisconsin
Daniel Barnish
Steve Bauman
Mark Beissinger
Cal Bergman
Sally Berray*
Alda Blanco
Matt Briggs
Charles Cohen
Don Cox
Jean Heitz
Katie Huggett
Andrew Irving
Brent McCown
Susan Nossal
Jan Plug
Uli Schamiloglu
John Sharpless
Dan Shea
Gail Simpson
Robert Skloot
Denise Solomon
Peter Timbie
Keith White
John Wiley
Content Review
Panelists
These faculty members reviewed
and helped develop the final draft
of the Knowledge and Skills for
University Success standards.
English
Terence Collins, Ph.D.,
University of Minnesota
George Cusack, M.A.,
University of Oregon
Diana Henderson, Ph.D.,
Massachusetts Institute
of Technology
Second Languages
Liza Knapp, Ph.D.,
University of California, Berkeley
Dan Melia, Ph.D.,
University of California, Berkeley
Alan Timberlake, Ph.D.,
University of California, Berkeley
Cyrus Patell, Ph.D.,
New York University
Luis Ramos-Garcia, Ph.D.,
University of Minnesota
Carol Severino, Ph.D.,
The University of Iowa
Andrew Irving, Ph.D.,
University of Wisconsin
Jill Gidmark, Ph.D.,
University of Minnesota
Robert Davis, Ph.D.,
University of Oregon
Mathematics
Richard Askey, Ph.D.,
University of Wisconsin
Trish Bevans, M.S.,
University of Oregon
Harvey Keynes, Ph.D.,
University of Minnesota
Michel Kovcholovsky, M.A.,
University of Oregon
Paul Muhly, Ph.D.,
The University of Iowa
Dennis Sentilles, Ph.D.,
University of Missouri
Natural Sciences
John M. Halpin, Ph.D.,
New York University
Sasha Tavenner Kruger, M.S.,
University of Oregon
Brenda Leicht, Ph.D.,
The University of Iowa
Mark Kubinec, Ph.D.,
University of California, Berkeley
Patrick Market, Ph.D.,
University of Missouri
Leon Trilling, Ph.D.,
Massachusetts Institute of
Technology
Social Sciences
Lindy Beane, M.S.,
University of Oregon
John Fry, Ph.D.,
The University of Iowa
Claudia Parliament, Ph.D.,
University of Minnesota
Richard Hessler, Ph.D.,
University of Missouri
Carl Falsgraf, Ph.D.,
University of Oregon
The Arts
Visual Arts
Lynne Allen, Ph.D.,
Rutgers
Doug Blandy, Ph.D.,
University of Oregon
Craig Zabel, Ph.D.,
Pennsylvania State University
Gail Simpson, Ph.D.,
University of Wisconsin
Theatre
Clyde Ruffin, Ph.D.,
University of Missouri
Charles Railsback, Ph.D.,
Indiana University
Dance
Anna Beatrice Scott, Ph.D.,
University of California,
Riverside
Gus Solomon, Jr., Ph.D.,
New York University
Thomas DeFrantz, Ph.D.,
Massachusetts Institute
of Technology
Music
Lissa May Fleming, Ph.D.,
Indiana University
Jeanne Bamberger, Ph.D.,
Massachusetts Institute
of Technology
Art History
Rick Asher, Ph.D.,
University of Minnesota
English
Students need to engage texts critically and identify a theme or idea.
They must be able to identify these before they can move on to any deeper analysis.
Faculty Viewpoint
Knowledge & Skills
Foundations
variety of interpretations and that subjectivity, including personal experience and
opinion, influences possible reactions.
Students who perform well and derive the
greatest benefit from entry-level university
English courses are students who are
prepared for thoughtful study, students who
are engaged in the material and the process
of learning, students who are curious,
persistent and realistic. The following
discussion presents in greater detail the skills
and attributes that help make these students
successful.
The ability to paraphrase reading assignments shows whether a student
comprehends the material. Paraphrasing
requires that students pay close attention to
and understand both the literal meanings
and connotations of words. While reading,
successful students decide which pieces of
information are important and relevant to
the current assignment, noting the specific
points that support the argument they plan
to present.
Reading, Comprehension &
Literature
Students who are ready for introductory
literature courses come to the university
familiar with a range of world literature.
They are aware of major U.S. and British
authors—both men and women—and
representative literary works from a variety
of cultural traditions. These students have
had exposure to non-literary sources as
well: documents such as the Magna Carta
or the Declaration of Independence. With
that exposure, students have a better
understanding of the range of writing from
which their literature courses will draw.
Successful students connect reading to
writing and thinking skills. Reading is an
active process that, if done well, involves
asking questions and noticing patterns
along the way. Active reading includes
making notes, summarizing and critiquing
the material. Many students read in a
mechanical manner—just following the
words on the page—instead of using active
reading strategies.
Once students understand what it means
to be active readers, their next step is to
think critically about what they have read.
Successful students recognize an effective
thesis and how it is constructed. Reading is
interactive and leads to experiential and
literary connections. Successful students
are prepared to answer questions such as,
“How does this text make you feel?” and
“What features of the text made you feel
this way?”
It is important, too, to be able to take a
position about the material and defend that
position in a discussion. Students need to
realize that one piece of writing can evoke a
Awareness of cultural contexts is important, but students need to be familiar with
literary forms and genres, as well. The ability
to distinguish between different forms and
genres of writing is crucial. Students should
be able to recognize forms, such as a novel,
poem, play, essay, short story, and be able to
identify what makes a biography different
from a novel, or a short story different from
an essay. To understand the purposes and
possibilities of various forms, students need
to be able to tell the difference between
genres: comedy, epic, tragedy, romance and
others.
18 English
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Writing & Editing
Grammar is the basis for good writing. Good
writing demands that writers consistently use
proper sentence structure. Students in college
are expected to know how to diagram a
sentence and recognize how this process
helps them understand words and their
functions within a sentence. It is also
important to understand the specific ways
correct grammar makes writing clearer and
helps communicate more effectively.
Students should know basic grammatical
terminology and the parts of speech. They should
distinguish between clauses, phrases and
complete sentences. The mechanics of writing is
simply a subset of writing skills.
Faculty Viewpoint
All students can benefit from more
attention to writing mechanics. A review of
work samples from students in entry-level
courses reveals a high level and array of
grammatical errors. In order to succeed in
and benefit from writing and literature
courses, students must have a good grasp of
writing conventions.
Good writers use language to express
ideas, not simply to describe events.
Student writing must be coherent, and
students need to think rhetorically when
they write, consider the audience,
carefully select the evidence used to
support ideas,
cogently present the
overall argument and understand the
purposes of their writing. To achieve this,
successful students write an outline before
they start the larger piece, then use the
outline as a tool to develop a detailed
structure, as well as a guide while writing.
Successful students also understand how
to support an argument well enough that a
strong position emerges, while at the same
time understand the consequences of taking
a particular position. Defending a position
requires an attuned knowledge of the
material—which also tends to improve
students’ ability to think about what they
write.
Writing is just the beginning. Editing is
the most important part of the writing
process. Going through several drafts of a
particular paper is routine for a college-level
assignment. Often, students rely too heavily
on the computer spell-checker in place of
references and careful revision. Students
need to be able to proofread, check for
mistakes on their own and appreciate the
value of the revision and re-writing
processes. These processes improve writing
ability; they help students be better writers
and improve grades on written assignments.
Information Gathering:
Notes & Research
Students are expected to take useful notes
during the many lectures they attend during
their first year of college. To be useful, a set
of notes should be more than just a
transcript of what a professor has said. It is
all too common for many new college
students simply to fill up pages without
sufficiently evaluating the relative quality
and importance of the information
delivered by the instructor. Students are
expected to pay close attention and engage
with presented materials, both written and
verbal. This requires taking in information,
analyzing it and recording that which is
meaningful and useful.
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A huge part of the information gathering
process takes place outside of the classroom.
Successful students know how to make a
research plan and carry it out: What questions
need to be asked, who has the knowledge and
authority to answer them and what sources
can be used to answer those questions? Also,
students should have, or at least be able to
develop quickly, the following skills:
1.
The ability to identify a source.
Students must understand what
plagiarism is and understand the
ethics of writing. It is essential to
know what borrowing ideas from
other authors means, how to
paraphrase properly and how to
cite sources.
2.
The ability to distinguish the
degree of quality and reliability of
information. Many students often
accept unreliable information
from the Internet or other
unverified sources.
3.
The ability to connect information
from sources to support an
argument. Students need to know
the difference between primary
and secondary sources and ask
themselves whether the evidence
they have found is weak or strong,
and how that evidence helps
create a cogent argument.
4.
The ability to be disciplined in
doing research, regardless of what
the field may be. The humanities
use good research, just as the
sciences do.
Students should have read English, American
and world literatures and know many of the
important authors and key works. They should be
able to identify a literature's country of origin.
Faculty Viewpoint
Analysis, Critique & Connections
In addition to the ability to engage in
reading and to present a solid structure and
argument in writing, students need to think
analytically about the information they
collect. Students should be able to:
1.
Categorize information
thematically. Doing so allows
students to see the larger
constructs inherent in the
information and see the
relationships between ideas and
attendant concepts and theories.
Then, students can identify the
main message and avoid
becoming overwhelmed by
details.
2.
Go beyond facts presented in
readings or lectures. Students must
allow questions to emerge from the
text, identify connections with
other concepts they have learned
and imagine alternatives to a text’s
final content message or
conclusion.
3.
Be aware of the difference(s)
between summary and description,
and interpretation and analysis.
20 English
A project of the AAU & The Pew Charitable Trusts
that do no t necessarily have right o r wro ng
answers.
This req uires reflective and
critical thinking. It is crucial that students
be able to discuss questio ns in depth and
effectively defend a po sitio n based on their
analysis of the material.
At the college level, students must also be
able to accept constructive criticism of their
own work without taking it personally. Many
students are unable or unwilling to argue
effectively, nor can they differentiate between
criticism and critique. To succeed in
discussion classes and written work, critical
skills are essential.
Students need to be willing to receive a
critique of their work without perceiving it as
an attack on their integrity, intelligence or
creativity. A good refutation of your argument
is not a personal attack; it does not mean that
you are talentless or a bad person.
Faculty Viewpoint
4.
Move between general and specific
ideas when analyzing information.
5.
Think comparatively and make
connections across texts and
points of view, enriching and
expanding the understanding of
the materials.
Once the information is gathered and
the analysis process is underway, the most
important skill to employ is critical
reflection. Critical reflection goes beyond
“I liked it,” or “I didn’t like it.” When
asked to evaluate a piece of writing, students are expected to answer questions
Successful students are able to integrate
personal experiences and knowledge with
the material they encounter in their
coursework. Information comes from a
variety of sources—whether it is from a
different class or department, personal
observation or public knowledge, students
should be able to connect ideas and
concepts across sources. Making such connections helps students understand the
interdisciplinary nature of knowledge.
Successful students have opinions. They
are able to assert their opinions and ask
bold questions. By thinking out their
opinions, students develop a consciousness
and a distinct voice. At the same time,
students need to understand that “I”
statements are rarely acceptable in formal
academic writing. Opinions may be a good
thing, but they need to be substantiated and
supported by empirical evidence.
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A report from Standards for Success
Orientation Towards Learning
Time management is a key part of research,
coursework and effective participation.
College level study often takes more time
than students are prepared to spend.
Incoming students must learn how to set
aside enough time for reading and study and
to understand that some assignments take
many hours. The ability to start early and to
budget time effectively are essential skills.
Students who participate in public
discourse—by reading newspapers, following the course of world events and
considering how those events play out in the
U.S.—are ready to participate in academic
discussion. Such discussion requires give
and take, and students should have ideas
and questions to add to the conversation. It
is necessary for students to ask questions
and to understand why it is important to do
so. To benefit from material presented in
classes, students need to be engaged with
their instructors and to ask questions that go
beyond what is presented in class.
Young students are often quick to make broad
generalizations. What they tend not to deal
with are the specifics. They don’t know that
you’re supposed to support positions with
references. They can say the world is screwed
up, but think they can leave it at that without
being more specific.
Faculty Viewpoint
To be able to discuss a piece of literature, students must have a basic
understanding of its place in history.
Placing text in its historical context can
help students understand where they
themselves fit and how societal contexts
influence writing and thinking.
The same applies to geography: To
understand fully the impact of a piece of
literature, students must be able to place it
in a geographical context. Students must
understand how that geographic setting
influences the content of the work.
Students need to be open-minded and
willing to consider a variety of viewpoints,
texts and phenomena that may differ from
what they may have learned before. Such
open-mindedness helps students understand
the ways in which knowledge is constructed.
It broadens student perspectives and helps
students deal with the novelty and ambiguity
often found in new materials.
I wish students had a willingness to go deeper,
to get beneath the surface of the text or the
surface of the argument and discover what the
substance is. I wish they were willing to try to
do that more often.
Faculty Viewpoint
As tasks become more challenging, it is
often difficult for new college students to
maintain acceptable levels of attention and
application. It is essential that students
approach their work with an open mind and
willingness to push forward. Students are
almost always capable of following through;
more often, they are simply unwilling to try
and keep trying.
Students do well if they appreciate what
college is—and what it is not. They must
understand academic expectations and the
realities of college life, including the need to
apply themselves and work hard. College is
a process of learning, not a series of
obligatory hurdles towards a degree. The
students who appreciate the need to
persevere and think independently are in
the best position to succeed.
22 English
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English
Standards
*= Items with an asterisk are those expected of
students who plan to major in these fields of study
(English, comparative literature, writing).
I. Reading & Comprehension
A. Successful students employ reading
skills and strategies to understand
literature. They:
A.1.
engage in an analytic process to
enhance comprehension and
create personal meaning when
reading text. This includes the
ability to annotate, question,
agree or disagree, summarize,
critique and formulate a
personal response.
A.2.
make supported inferences and
draw conclusions based on
textual features, seeking such
evidence in text, format,
language use, expository
structures and arguments used.
A.3.
use reading skills and strategies
to understand a variety of types
of literature, such as epic pieces
(for instance, the Iliad) and lyric
poems, as well as narrative
novels and philosophical pieces.
A.4.
understand plot and character
development in literature,
including character motive,
causes for actions and the
credibility of events.
A.5.* identify basic beliefs,
perspectives and philosophical
assumptions underlying an
author’s work. This includes
identifying points of view,
attitudes and the values
conveyed by specific use of
language.
A.6.*
exercise a variety of strategies to
understand the origins and
meanings of new words,
including analysis of word roots
and the determination of word
derivations.
A.7.* recognize and comprehend
narrative terminology and
techniques, such as author
versus narrator, stated versus
implied author and historical
versus present-day reader.
B. Successful students use reading skills
and strategies to understand
informational texts. They:
B.1.
understand instructions for
software, job descriptions,
college applications, historical
documents, government
publications, newspapers and
textbooks.
B.2.
use monitoring and selfcorrection, as well as reading
aloud, as means to ensure
comprehension.
B.3.
understand vocabulary and
content, including subject-area
terminology; connotative and
denotative meanings; and
idiomatic meanings.
B.4.
exercise a variety of strategies to
understand the origins and
meanings of new words,
including recognition of cognates
and contextual clues.
C. Successful students are able to
understand the defining
characteristics of texts and to
recognize a variety of literary forms
and genres. They:
C.1.
comprehend the salient
characteristics of major types
and genres of texts, such as
novels, short stories, horror
stories, science fiction,
biographies, autobiographies,
poems and plays.
C.2.
understand the formal
constraints of different types of
texts and can distinguish
between, for example, a
Shakespearean sonnet and a
poem written in free verse.
C.3.
are able to discuss with
understanding the effects of an
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A report from Standards for Success
author’s style and use of literary
devices to influence the reader
and evoke emotions. This
includes devices such as
imagery, characterization,
choice of narrator, use of
sound, formal and informal
language, allusions, symbols,
irony, voice, flashbacks,
foreshadowing, time and
sequence and mood.
C.4.
are able to identify archetypes,
such as universal destruction,
journeys and tests and
banishment, which appear
across a variety of types of
literature, including American
literature, world literature,
myths, propaganda and
religious texts.
C.5.
are able to discuss with
understanding themes such as
initiation, love and duty,
heroism and death and rebirth
that appear across a variety of
literary works and genres.
C.6.
use aesthetic qualities of style,
such as diction or mood, as a
basis to evaluate literature that
contains ambiguities, subtleties
or contradictions.
D. Successful students are familiar with a
range of world literature. They:
D.1.
demonstrate familiarity with
major literary periods of
English and American literature
and their characteristic forms,
subjects and authors.
D.2.
demonstrate familiarity with
authors from literary
traditions beyond the Englishspeaking world.
D.3.
demonstrate familiarity with
major works of literature
produced by American and
British authors.
E. Successful students are able to discuss
with understanding the relationships
between literature and its historical
and social contexts. They:
E.1.
know major historical events that
may be encountered in literature.
E.2.
demonstrate familiarity with the
concept that historical, social
and economic contexts influence
form, style and point of view;
and that social influences affect
an author’s descriptions of
character, plot and setting.
E.3.
demonstrate familiarity with
the concept of the relativity of
all historical perspectives,
including their own.
E.4.
are able to discuss with
understanding the relationships
between literature and politics,
including the political
assumptions underlying an
author’s work and the impact of
literature on political
movements and events.
24 English
A project of the AAU & The Pew Charitable Trusts
F. Successful students are able to read
and interpret visual images, including
charts and graphs. They:
F.1.
identify the primary elements
of the types of charts, graphs
and visual media that occur
most commonly in texts.
F.2.
interpret accurately the content
of charts, graphs and visual
media that occur in texts.
A.3.
B. Successful students know conventions
of punctuation and capitalization. They:
B.1.
use commas with
nonrestrictive clauses and
contrasting expressions.
B.2.
use ellipses, colons, hyphens,
semi-colons, apostrophes and
quotation marks correctly.
B.3.
capitalize sentences and proper
nouns correctly.
B.4.
consistently avoid run-on
sentences and sentence
fragments.
II. Writing
A. Successful students apply basic
grammar conventions in an effort to
write clearly. They:
A.1.
A.2.
identify and use correctly and
consistently parts of speech,
including nouns, pronouns,
verbs, adverbs, conjunctions,
prepositions, adjectives and
interjections.
use subject-verb agreement
and verb tense consistently
and correctly.
demonstrate consistent, correct
and appropriate pronoun
agreement and the use of
different types of clauses and
phrases, including adverb
clauses, adjective clauses and
adverb phrases.
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A report from Standards for Success
C. Successful students know conventions
of spelling. They:
C.1.
use a dictionary and other
resources to spell new,
unfamiliar or difficult words.
C.2.
differentiate between commonly
confused terms, such as “its” and
“it’s” or “affect” and “effect.”
C.3.
know how to use the spellchecker and grammar check
function in word processing
software while understanding the
limitations of relying upon these
tools.
D.7.* use a style manual, such as the
Modern Language Association
(MLA) or the American
Psychological Association (APA)
to apply writing conventions
and to create documentation
formats in a manner consistent
with the manual.
E. Successful students use writing to
communicate ideas, concepts, emotions
and descriptions to the reader. They:
E.1.
know the difference between a
topic and a thesis.
E.2.
articulate a position through a
thesis statement and advance
it using evidence, examples
and counterarguments that are
relevant to the audience or
issue at hand.
E.3.
use a variety of methods to
develop arguments, including
compare-contrast reasoning;
logical arguments (inductivedeductive); and alternation
between general and specific
(e.g., connections between
public knowledge and personal
observation and experience).
E.4.
write to persuade the reader by
anticipating and addressing
counterarguments, by using
rhetorical devices and by
developing an accurate and
expressive style of
communication that moves
beyond mechanics to add flair
and elegance to writing.
E.5.
use a variety of strategies to
adapt writing for different
audiences and purposes, such
as including appropriate
content and using appropriate
language, style, tone and
structure.
E.6.
distinguish between formal and
informal styles, for example,
between academic essays and
personal memos.
D. Successful students use writing
conventions to write clearly and
coherently. They:
D.1.
D.2.
know and use several prewriting strategies, including
developing a focus; determining
the purpose; planning a
sequence of ideas; using
structured overviews; and
creating outlines.
use paragraph structure in
writing as manifested by the
ability to construct coherent
paragraphs and arrange
paragraphs in logical order.
D.3.
use a variety of sentence
structures appropriately in
writing, including compound,
complex, compound-complex,
parallel, repetitive and
analogous sentence structures.
D.4.
present ideas to achieve overall
coherence and logical flow in
writing and use appropriate
techniques such as transitions
and repetition to maximize
cohesion.
D.5.
use words correctly; use words
that mean what the writer
intends to say; and use a varied
vocabulary.
D.6.* demonstrate development of
a controlled yet unique style
and voice in writing where
appropriate.
26 English
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E.7.
E.8.*
E.9.*
use appropriate strategies and
formats to write personal and
business correspondence,
including appropriate
organizational patterns, formal
language and tone.
use appropriate strategies to
write expository essays that
employ supporting evidence; use
information from primary and
secondary sources; incorporate
charts, graphs, tables and
illustrations where appropriate;
anticipate and address readers’
biases and expectations; and
explain technical terms and
notations.
use strategies to write fictional,
autobiographical, and
biographical narratives that
include a well-developed point
of view and literary elements;
present events in logical
sequence; convey a unifying
theme or tone; use concrete and
sensory language; and pace
action.
F. Successful students both use and
prioritize a variety of strategies to
revise and edit written work to
achieve maximum improvement in
the time available. They:
F.1.
employ basic editing skills
proficiently to identify
obvious mechanical errors,
clarify and improve the
structure of the piece and
sharpen language and
meaning.
F.2.
review ideas and structure in
substantive ways to improve
depth of information and logic
of organization.
F.3.
reassess appropriateness of
writing in light of genre,
purpose and audience.
F.4.
use feedback from others to
revise written work.
III. Research Skills
A. Successful students understand and
use research methodologies. They:
A.1.
formulate research questions,
refine topics, develop a plan for
research and organize what is
known about the topic.
A.2.
use research to support and
develop their own opinions, as
opposed to simply restating
existing information or opinions.
A.3.
identify claims in their writing
that require outside support or
verification.
A.4.* identify through research the
major concerns and debates in
a given community or field of
inquiry and address these in
their writing.
B. Successful students know how to find
a variety of sources and use them
properly. They:
B.1.
collect information to develop a
topic and support a thesis.
B.2.
understand the difference
between primary and secondary
sources.
B.3.
use a variety of print or
electronic primary and
secondary sources including
books, magazines, newspapers,
journals, periodicals and the
Internet.
B.4.
understand the concept of
plagiarism and how (or why) to
avoid it and understand rules
for paraphrasing, summarizing
and quoting, as well as
conventions for incorporating
information from Internetbased sources in particular.
B.5.
evaluate sources of information
located on the Internet in
particular to ascertain their
credibility, origin, potential
bias, and overall quality.
B.6.
select relevant sources when
writing research papers and
appropriately include
English 27
A report from Standards for Success
information from such sources;
logically introduce and
incorporate quotations;
synthesize information in a
logical sequence; identify
different perspectives; identify
complexities and discrepancies
in information; and offer
support for conclusions.
B.7.*
evaluate sources critically,
discerning the quality of the
materials and qualifying the
strength of the evidence and
arguments, as well as
determining credibility,
identifying bias and perspective
of the author and using prior
knowledge of the source.
IV. Critical Thinking Skills
A.2.*
B. Successful students demonstrate the
ability to think independently. They:
B.1.
are comfortable formulating
and expressing their own ideas.
B.2.
support their arguments with
logic and evidence relevant to
their audience and that
explicates their position as fully
as possible.
B.3.
understand fully the scope of
their arguments and the claims
underlying them.
B.4.
reflect on and assess the
strengths and weaknesses of
their ideas and the expression
of those ideas.
A. Successful students demonstrate
connective intelligence. They:
A.1.
are able to discuss with
understanding how personal
experiences and values affect
reading comprehension and
interpretation.
demonstrate an ability to make
connections between the
component parts of a text and
the larger theoretical structures,
including presupposition,
audience, purpose, writer’s
credibility or ethos, types of
evidence or material being used
and style.
Mathematics
I would characterize having a good mathematical background as the ability to extract
the problem from a context, use mathematics to solve the problem and then interpret
the solution back into the context. This is an important skill.
Faculty Viewpoint
Knowledge & Skills
Foundations
A s in many other disciplines, incoming
students in mathematics are expected to
bring a combination of hands-on skills
and conceptual understanding. Entering
students need to know basic mathematical
concepts—computation, algebra, trigonometry, geometry—so that they have the
tools to work with increasingly complex
conceptual mathematical and quantitative procedures and analyses in their
college courses.
2.
co m m o n sense to wo rk o n and
find m athem atical so lutio ns.
Successful students are able to
pro vide suppo rting evidence to
co nstruct co m pelling argum ents
to explain pro cesses and
so lutio ns. They check their
so lutio ns thro ugh visualizatio n,
so that they can see whether their
findings m ake sense.
3.
Using experimental thinking,
inquisitiveness and a willingness to
investigate the steps used to reach a
solution. Successful students
understand there can be multiple
approaches to solving a problem.
4.
Taking risks and accepting failure
as part of the learning process.
When students do not find the
correct answer to a problem, it is
an opportunity to revisit the
procedures they used, try new ones
and ask further questions. Finding
a solution may be only vaguely
logical. Verifying a solution should
be rigorously logical.
5.
The ability to use formulas and
algorithms of computation. A
lack of facility with computation
and formulas encumbers the
analytical process.
Understanding Mathematics
Successful students approach mathematical problems as they would an
investigation. They ask questions, reflect
and revisit their solutions with this idea
in mind: It is important how one reaches
a solution and why a solution works.
Problem solving involves analytical processes and sets of skills. These skills include,
among others, the following:
1.
Thinking conceptually, not just
procedurally, about mathematics.
Successful students understand the
relationships that exist between
mathematical concepts and that
formulas do not function in a
vacuum. They perceive
mathematics as a way of
understanding, a thinking process
and not a collection of detached
procedures to be learned and
applied separately.
Using lo gical reaso ning and
Problem Solving, Technology and
Communication
Problem solving is central to the teaching
and learning of mathematics. The step-bystep approach is the best way to solve math
30 Mathematics
A project of the AAU & The Pew Charitable Trusts
Mathematics is the language of the
sciences, and thus fluency in this language is
a basic skill. Students prepared for collegelevel study are comfortable with mathematic
terminology and use it appropriately. It is
crucial to understand that formulas and
symbols provide precise statements of often
vaguely posed problems. Different interpretations of a problem may lead to different
mathematical models and analyses. Students
must pay attention to the wording of
problems and move with ease between the
symbolic representation of a problem and its
verbal presentation.
Students need to understand that process is also
important in mathematics. They tend to put too
much emphasis on the answer.
Faculty Viewpoint
problems and draw parallels and
connections from various problems.
Mathematical problem solving involves
logical reasoning; it is important to explore
the reasons why step two follows step one.
Successful students understand the process
of modifying, adapting and combining
mathematical tools to find new ways to
reach a solution. They also need to question
results until they can explain their answers
and defend them. Technology is important
and relevant to the understanding of
mathematics. However, students need to be
aware of its limitations and recognize that
calculators are tools that assist but do not
replace the thinking process. A graphing
calculato r can
b e a to o l to
deepen
understanding o f functio ns and a way to
represent them visually. At the same time,
successful students can identify whether the
calculato r’s answers are reaso nable in light
o f their o wn calculatio ns.
While mathematics is a type of language,
the study of math also requires solid verbal
skills. In mathematics, students are expected
to write with clarity and cohesiveness. A
poorly written solution is often an indication
of confused thinking. While clarity in writing
is the best way to convey information to
others, it is also an important indication that
one understands the problem.
Orientation Towards Learning
Relating mathematical abstractions to life
outside of mathematics courses is a highly
useful skill. Students who do well in
mathematics classes are prepared to
translate real situations into mathematical
representation and, conversely, extract
meaning from mathematical expression.
They understand when mathematics
generalizes and when it is specific, and
recognize the importance of abstraction
and generalization as they learn and do
mathematics.
Mathematics 31
A report from Standards for Success
Often, college-level mathematics courses
require that students work in groups. While it
is important to be able to work effectively
with peers, students must also develop the
skills necessary to approach mathematical
problems on their own; independent of
classes, group projects and work
environments. Doing so will help students
get the most from group activities. Both
situations are valuable—as are the skills to
work within them.
Students often experience anxiety when
confronted with a mathematical problem,
even when encountering mathematical
terminology. Persistence is invaluable in the
quest for correct answers to a problem, and it
is vital to tolerate ambiguity on the road to
solution. Interestingly enough, some faculty
expressed a concern about students being too
confident in their perceived knowledge and
skills. Students are sometimes naively
confident, preventing themselves from
engaging in the mathematical process,
finding other solutions and estimating or
questioning the viability of their results.
Mathematical problems rarely have
instant or quick solutions and often
require long periods of time before a
solution can be found. Sustained
inquiry—engaging in the process for more
than a short time—is an important part of
the process when solving a problem or
writing an exam. Successful students
understand that math is an academic
activity that requires time, sustained
engagement, patience and persistence.
When students practice multiplying and adding
by hand for a long time, they get a feel for what
numbers are. Now, by overusing the calculator,
simple operations are gone. Mental calculations
help develop a feel for math. Going to the
calculator too soon is a problem.
Faculty Viewpoint
Mathematics
Standards
*= Items with an asterisk are those expected of
students who plan to major in these fields of study
(mathematics, computer science, statistics).
I. Computation
A. Successful students know basic
mathematical operations. They:
A.1.
apply arithmetic operations with
fractions and integers (e.g., add
and subtract by finding a
common denominator, multiply
and divide, reduce and perform
long division without a
calculator).
A.2.
use exponents and scientific
notation.
A.3.
use radicals correctly.
A.4.
understand relative magnitude.
A.5.
calculate using absolute value.
A.6.
use the correct order of
arithmetic operations,
particularly demonstrating
facility with the Distributive Law.
32 Mathematics
A project of the AAU & The Pew Charitable Trusts
A.7.* know terminology for complex
numbers, integers, rational
numbers, irrational numbers
and complex numbers.
C.3.
B. Successful students know and carefully
record symbolic manipulations. They:
B.1.
understand the uses of
mathematical symbols as well as
the limitations on their
appropriate uses (e.g., equal
signs, parentheses, superscripts
and subscripts).
C. Successful students know and
demonstrate fluency with
mathematical notation and
computation. They:
C.1.
correctly perform addition,
subtraction, multiplication and
division that includes variables.
C.2.
perform appropriate basic
operations on sets (e.g., union,
intersection, elements of,
subsets and complement).
use alternative symbolic
expressions, particularly
alternatives to x (e.g., letters of
the Greek alphabet that do not
already have specific scientific
or mathematical meanings).
II. Algebra
A. Successful students know and apply
basic algebraic concepts. They:
A.1.
use the distributive property to
multiply polynomials.
A.2.
know how to compose and
decompose functions and how to
find inverses of basic functions.
A.3.
simplify and perform basic
operations on rational
expressions, including finding
common denominators (e.g.,
add, subtract, multiply and
divide).
A.4.
understand exponents, roots
and their properties [e.g.,
(x2)(x3)=x5 and (√x)3 = x3/2)].
Mathematics 33
A report from Standards for Success
A.5.
know basic theorems of
exponents and roots.
A.6.*
understand logarithms (to bases
2, 10 and e) and their properties.
A.7.* divide low degree polynomials
(e.g., long division).
A.8.* know basic theorems of
logarithms.
A.9.* factor polynomials (e.g.,
difference of squares, perfect
square trinomials, difference of
two cubes and trinomials such
as x2 + 3x + 2).
B. Successful students use various
appropriate techniques to solve
basic equations and inequalities.
They:
B.1.
solve linear equations and
absolute value equations.
B.2.
solve linear inequalities and
absolute value inequalities.
B.3.
solve systems of linear
equations and inequalities
using algebraic and graphical
methods (e.g., substitution,
elimination, addition and
graphing).
B.4.
solve quadratic equations using
various appropriate methods
while recognizing real
solutions. This includes:
B.4a.
factoring.
B.4b.
completing the square.
B.4c.
the quadratic formula.
C. Successful students distinguish between
and among expressions, formulas,
equations and functions. They:
C.1.
know when it is possible to
simplify, solve, substitute or
evaluate equations and
expressions and when it is not
possible. For example, expand,
but do not solve, the expression
(x+3)(x+1); substitute a = 3, b =
4 into the formula a2 + b2 = c2;
solve the equation 0 =
(x+3)(x+1); or evaluate the
function f(x) = (x+3)(x+1) at x
= -1.
C.2.
understand that the concept of
a function has a specific
definition beyond being a type
of algebraic expression.
C.3.
represent functions, patterns
and relationships in different
ways (e.g., statements, formulas
and graphs).
C.4.
understand the algebraic
language and notation for
functions (e.g., domain and
range).
C.5.
understand a variety of functions
(e.g., polynomial, rational,
exponential, logarithmic and
trigonometric) and properties of
each.
D. Successful students understand the
relationship between equations and
graphs. They:
D.1.
understand basic forms of the
equation of a straight line and
how to graph the line without
the aid of a calculator.
D.2.
understand the basic shape of
a quadratic function and the
relationships between the roots
of the quadratic and zeroes of
the function.
D.3.
know the basic shape of the
graph of exponential and log
functions, including
exponential decay.
E. Successful students understand
algebra well enough to apply it
procedurally and conceptually to a
range of common problems. They:
E.1.
recognize which type of
expression best fits the context of
a basic application (e.g., linear
equation to solve distance/time
problems; quadratic equation to
explain the motion of a falling
object; or compound interest as
an exponential function).
34 Mathematics
A project of the AAU & The Pew Charitable Trusts
F. Successful students demonstrate the
ability to work with formulas and
symbols algebraically. They:
F.1.*
F.2.*
know formal notation (e.g.,
sigma notation and factorial
notation).
know arithmetic and geometric
progressions and series.
A.4.* know and use identities for sum
and difference of angles [e.g.,
sin (x ± y), cos (x ± y)] and use
double and half angle formulas.
IV. Geometry
A. Successful students understand and
use both basic plane and solid
geometry. They:
III. Trigonometry
A.1.
A. Successful students know and
understand basic trigonometric
principles. They:
know properties of similarity,
congruence and parallel lines
cut by a transversal.
A.2.
know how to figure area and
perimeter of basic figures.
A.3.
understand the ideas behind
simple geometric proofs and are
able to develop and write simple
geometric proofs (e.g., the
Pythagorean theorem; that there
are 180 degrees in a triangle;
and that the area of a triangle is
half the base times the height).
A.4.
solve problems involving
proofs through the use of
geometric constructions.
A.5.
use similar triangles to find
unknown angle measurements
and lengths of sides.
A.1.
know the definitions of sine,
cosine and tangent using right
triangle geometry and
similarity relations.
A.2.
understand the relationship
between a trigonometric function
in standard form and its
corresponding graph (e.g.,
domain, range, amplitude,
period, phase shift and vertical
shift).
A.3.
understand periodicity and
recognize graphs of periodic
functions, especially the
trigonometric functions.
Mathematics 35
A report from Standards for Success
A.6.
visualize solids and surfaces in
three-dimensional space (e.g.,
recognize the shape of a box
based on a two-dimensional
representation of its surfaces; and
recognize the shape of a cone
based on a two-dimensional
representation of its surface).
A.7.
know basic formulas for
volume and surface area for
three-dimensional objects.
B. Successful students know analytic
(i.e., coordinate) geometry. They:
B.1.
know geometric properties of
lines (e.g., slope and midpoint
of a line segment).
B.2.
know the formula for the
distance between two points.
B.3.
solve mathematical and realworld problems (e.g., ladders,
shadows and poles) that involve
the properties of special right
triangles with the Pythagorean
theorem and its converse.
B.4.*
recognize geometric
translations and
transformations algebraically.
C. Successful students understand basic
relationships between geometry and
algebra. They:
C.1.
know that geometric objects and
figures can also be described
algebraically (e.g., ax + by = c is
the standard form of a line).
C.2.
know the algebra and geometry
of circles.
C.3.*
know the algebra and geometry
of parabolas and ellipses as a
prerequisite to the study of
calculus.
C.4.* use trigonometry for examples
of the algebraic/geometric
relationship, including Law of
Sines/Cosines.
V. Mathematical Reasoning
A. Successful students know important
definitions, why definitions are
necessary and are able to use
mathematical reasoning to solve
problems. They:
A.1.
use inductive reasoning in basic
arguments.
A.2.
use deductive reasoning in basic
arguments.
A.3.
use geometric and visual
reasoning.
A.4.
use multiple representations
(e.g., analytic, numerical and
geometric) to solve problems.
A.5.
learn to solve multi-step
problems.
A.6.
use a variety of strategies to
revise solution processes.
A.7.
understand the uses of both
proof and counterexample in
problem solutions and are able
to conduct simple proofs.
36 Mathematics
A project of the AAU & The Pew Charitable Trusts
A.8.
are familiar with the process of
abstracting mathematical
models from word problems,
geometric problems and
applications and are able to
interpret solutions in the
context of these source
problems.
E.2.*
use calculators for systematic
trial-and-error problem solving.
E.3.*
plot useful graphs.
F. Successful students are able to
generalize and to go from specific to
abstract and back again. They:
F.1.
determine the mathematical
concept from the context of an
external problem, solve the
problem and interpret the
mathematical solution in the
context of the problem.
F.2.
know how to use specific
instances of general facts, as well
as how to look for general results
that extend particular results.
B. Successful students are able to work
with mathematical notation to solve
problems and to communicate
solutions. They:
B.1.
translate simple statements into
equations (e.g., “Bill is twice as
old as John” is expressed by the
equation b=2j).
B.2.
understand the role of written
symbols in representing
mathematical ideas and the
precise use of special symbols
of mathematics.
C. Successful students know a select list
of mathematical facts and know how
to build upon those facts (e.g.,
Pythagorean theorem; formulas for
perimeter, area, volume; and
quadratic formula).
D. Successful students know how to
estimate. They:
G. Successful students demonstrate
active participation in the process of
learning mathematics. They:
G.1.
are willing to experiment with
problems that have multiple
solution methods.
G.2.
demonstrate an understanding
of the mathematical ideas
behind the steps of a solution,
as well as the solution.
G.3.
show an understanding of how
to modify patterns to obtain
different results.
D.1.
are able to convert between
decimal approximations and
fractions.
G.4.
show an understanding of how
to modify solution strategies to
obtain different results.
D.2.
know when to use an
estimation or approximation in
place of an exact answer.
G.5.
D.3.
recognize the accuracy of an
estimation.
recognize when a proposed
solution does not work, analyze
why and use the analysis to
seek a valid solution.
D.4.
know how to make and use
estimations.
E. Successful students understand the
appropriate use as well as the
limitation of calculators. They:
E.1.
recognize when the results
produced are unreasonable or
represent misinformation.
H. Successful students recognize the
broad range of applications of
mathematical reasoning. They:
H.1.
know that mathematical
applications are used in other
fields (e.g., carbo n dating,
exponential growth,
amortization tables,
predator/prey models, periodic
motion and the interactions of
waves).
Mathematics 37
A report from Standards for Success
H.2.
know that mathematics has
played (and continues to
play) an important role in the
evolution of disciplines as
diverse as science,
engineering, music and
philosophy.
VI. Statistics**
A. Successful students apply concepts of
statistics and data analysis in the
social sciences and natural sciences.
They:
A.1.
represent data in a variety of
ways (e.g., scatter plot, line
graph and two-way table) and
select the most appropriate.
A.2.
understand and use statistical
summaries data (e.g., standard
deviation, range and mode).
A.3.* understand curve-fitting
techniques (e.g., median-fit line
and regression line) for various
applications (e.g., making
predictions).
** The majority of math participants
indicated that knowledge of statistics
is not necessarily a prerequisite for
success in most entry-level university
mathematics courses. However,
participants in other disciplines
identified knowledge of statistics as
important to success in some entrylevel courses in the social sciences
(e.g., economics) and sciences (e.g.,
biology and ecology). Statistics is
being included within mathematics
for organizational convenience, but
should not be interpreted as
equivalent to the other five areas of
mathematical knowledge and skill for
university success in terms of its
importance in entry-level college
mathematics courses. Statistics
standards also appear in the natural
sciences and social sciences.
Natural Sciences
Those students who do well in my class aren’t afraid to fail. They are willing to take
risks. If they read a problem and they don’t instantly know how to do it, they don’t
quit or feel embarrassed. They understand they’re not failing the course as a result of
a failed experiment.
Faculty Viewpoint
Knowledge & Skills
Foundations
Science presents both technical and
psychological challenges for incoming
students. A number of subjects come
together in this field, including math and
statistics. Students who are prepared to
study science at the college level are capable
of integrating scientific methods and
contextual understanding, critical thinking
and hands-on skills.
Basic Knowledge
In the fields of physics, chemistry and
biology, successful students are familiar with
fundamental scientific concepts, including
the significance of time; the range of light
waves; the nature of force, velocity and
acceleration; and the principles of evolution.
Entering students who are well-prepared
for science courses have mathematical
skills. They have knowledge of basic
mathematical concepts and processes in
arithmetic, algebra, trigonometry and
geometry. They can translate and transform
fairly simple word problems into
mathematical equations and vice-versa. In
the sciences, as in mathematics, students
demonstrate a dependency on calculators.
Technology can help students with
scientific experiments but does not replace
the thinking processes required to estimate,
question and solve problems.
Thinking about Science
Beyond simple memorization of definitions or theories, successful students
understand how scientific processes
operate and how those processes relate to
one another. Science is a process, and it
requires certain skills.
First, students ready to get the most out
of science courses have a measure of
scientific common sense; an overall
understanding of how scientific concepts,
definitions and applications fit together.
Second, these students are capable of
experimental thinking. They have an
understanding that experimentation is an
inherent part of the scientific process.
Incoming students will benefit greatly from
an understanding of the interrelationships
among scientific concepts and across the
sciences. For instance, a biology student
would do well to know about physics and
chemistry, and the ways that those
disciplines inform the study of biology.
Successful students use mathematical
reasoning as they work with chemical
formulas and as they try to solve and
explain problems. Once a solution is
reached, they can also defend why they
chose each math process. Evaluating
scientific issues in daily life and
understanding the origins of scientific
knowledge is important, as well. As they
study, successful students address questions
along the way, such as “Do I know for
sure?” and “How do I know?”
The relationship between a chemical
formula and its real-world application is
worth thinking about, too. There is a
formula
behind
the
process
of
photosynthesis, and it is applied in plant
life all around us. This type of
conceptualization helps students to realize
the position of humans within a global
context and to gain an appreciation for
everyday existence. Students who succeed in
40 Natural Sciences
A project of the AAU & The Pew Charitable Trusts
the sciences employ critical thinking skills
as they learn scientific concepts. Beyond
mere curiosity, they inquire about their
place in the universe and question their
own scientific knowledge and beliefs.
Science, like any field of study, carries
with it historical and social contexts.
Incoming students need not be historians,
but they benefit greatly from knowing
about the central features of historical
traditions and contemporary events that
relate to and influence the development of
scientific inquiry.
Solving Problems, Asking
Questions
Incoming students are ready to benefit from
science courses when they are prepared to
solve scientific problems using the step-bystep approach known as the scientific
method. Examples of scientific problemsolving skills include:
1.
Drawing a picture to represent a
situation described in a physics
problem.
2.
Identifying and organizing what is
known and not known in a
problem.
3.
Identifying assumptions and
relevant equations.
4.
Testing equations for unknowns.
5.
Checking units.
6.
Checking that the answer is
physically reasonable.
Successful students know how to design a
testable scientific question, refine that
question and conduct an experiment to find
solutions. They are able to think creatively
as they develop hypotheses and estimate
potential results. They also show a
willingness to question existing results, and
then to generate and weigh new options
and questions as a result of the inquiry they
undertake.
Reading, Writing &
Communication
In the sciences, as in other disciplines,
successful students write with clarity,
cohesiveness and meaning. Good science
writers have knowledge of scientific writings
and the terminology used in such texts and
know how to translate this knowledge into
non-scientific language. As students write
scientific analyses, they need to construct
logical and coherent arguments that
demonstrate an understanding of causation
and of the various levels of abstraction
involved in science. These are important
tools that enable students to communicate
understanding of a scientific process,
particularly as they present and defend
experiments to teachers and peers.
Basic math skills are, quite possibly, the most
important set of skills for students to have
mastered coming into a freshman science
course. They need to understand why
equations work and what each equation says
about the physical world, for example,
measuring the velocity of air. Mastery of
algebraic equations allows students to make
complicated measurements.
Faculty Viewpoint
Two specific reading skills are particularly
necessary for success. First, successful
students comprehend what they read.
Second, they are familiar with publications
that carry articles on scientific findings (for
example, Discover m agazine and the
New York Times) and understand both
scientific terminology and experiments
described in such publications. This
comprehension of scientific literature with
some technical language, content or
concepts is useful when students try to
explain processes used to test a scientific
hypothesis. Also, as students read scientific
literature they exercise scientific common
Natural Sciences 41
A report from Standards for Success
sense, or a healthy skepticism. This helps
them assess the likely validity of the content
of articles and continue to build independent judgment about the validity of
scientific reports in general.
Orientation Towards Learning
Entry-level students often feel anxiety as
they tackle a scientific experiment or try to
explain a scientific concept. Persistence is
vital in the quest for solutions, as is
acceptance of failure and ambiguity as part
of the experimentation process. Some
scientifically well-prepared students have
such a fear of failure that they are unwilling
to approach new things. They often have
trouble investigating alternative solutions
to a problem, offering an estimate rather
than a precise answer or questioning the
credibility of their results. To develop a
scientific knowledge base, successful
students act on their curiosity and take risks
to understand the intricacies and mysteries
of science.
In addition to the willingness to try,
successful students have the ability to
conduct honest and sustained inquiry and
to engage in the scientific process for long
periods of time as hypotheses are tested
over and over. They understand that
scientific learning is ongoing. It is a
scholarly activity that requires time,
sustained engagement, reflective study
skills, patience and persistence.
Beyond good study skills, successful
entry-level students take responsibility for
their own education. They structure and
manage time according to course
expectations. They know how and when to
ask for help. Study in any field of science
requires hard work, a focused curiosity and
a willingness to dedicate the time necessary
to follow through on a scientific inquiry.
42 Natural Sciences
A project of the AAU & The Pew Charitable Trusts
organize, display and analyze
data; make revisions of
hypotheses, methods and
explanations; present the
results; and seek critiques from
others).
B. Successful students know basic
mathematics conventions. They:
Natural Sciences
Standards
*= Items with an asterisk are those expected of
students who plan to major in fields of the natural
sciences such as environmental sciences, biology,
chemistry and physics.
B.1.
understand the real number
system and its properties.
B.2.
use exponents and scientific
notation.
B.3.
understand ratios, proportions
and percents and how each is
related to the other.
B.4.
use proportional reasoning to
solve problems (e.g., equivalent
fractions, equal ratios, constant
rate of change, proportions and
percents).
B.5.
add, subtract, multiply and
divide with a high, consistent
degree of accuracy.
B.6.
simplify rational expressions.
C. Successful students are able to
recognize and use basic algebraic
forms. They:
C.1.
know ways that variables can be
used (e.g., as a placeholder for
an unknown, such as x + 2 = 9,
or to represent a range of
values, such as -3m - 8).
C.2.
know when it is possible to
simplify, solve, substitute in or
evaluate equations and
expressions and when it is not.
For example, expand, but not
solve, the expression (x +1)(x +
4); substitute a = 2, b = 4 into
the formula a2 + b2 = c2; solve
the equation 0 = (x +3)(x+1);
and evaluate the function
f(x)=(x+1)(x+4) at x = -1.
C.3.
represent functions, patterns
and mathematical relationships
using a variety of models (e.g.,
statements, formulas, and
graphs).
I. General Foundation Skills
A. Successful students understand the
steps that make up the scientific
method. These students are able to
observe, hypothesize, test and revise,
and they know the difference between
a hypothesis and a theory. They:
A.1.
design and conduct scientific
investigations during which
they formulate and test
hypotheses (formulate and
clarify the method; identify the
controls and variables; collect,
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C.4.* understand various types of
functions (e.g., direct and
inverse variation, polynomial,
radical, step and sinusoidal),
and have a deep understanding
of exponential and logarithmic
functions.
H. Successful students understand that
mathematics is a symbolic language,
that fluency requires practice and that
mathematics is the language of all
scientific pursuit. They:
H.1.
know the definition of a
mathematical expression (a
statement using numbers and
symbols to represent
mathematical ideas and realworld situations).
H.2.
understand the use of written
symbols and the limitations on
appropriate uses of such
symbols (e.g., equal signs,
parentheses and superscript).
D. Successful students demonstrate the
ability to work algebraically with
formulas and symbols. They:
D.1.
are familiar with the concept of
continuity.
D.2.* use formal notation to
describe applications of
sequences and series.
E. Successful students know and
understand basic trigonometric
principles. They:
E.1.
know the definitions of sine,
cosine and tangent in relation
to right triangle geometry and
similarity relations.
F. Successful students understand the
relationships between geometry and
algebra. They:
F.1.
understand that a curve drawn
in a certain location is fully
equivalent to a set of algebraic
equations.
F.2.*
possess the ability to represent
a geometrical figure (e.g., a
triangle or a circle) on a plane
using a set of equations, as in
descriptive geometry.
F.3.*
understand vectors and how
they can be used (e.g.,
representing velocity and force).
F.4.*
use operations on vectors (e.g.,
vector addition and scalar
multiplication).
G. Successful students demonstrate an
ability to problem-solve. They:
G.1.
use various strategies to
approach problem-solving
situations and to revise solution
processes.
44 Natural Sciences
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of the entire scientific
community.
I. Successful students understand and
apply concepts of probability and
statistics. They:
I.1.
I.2.
I.3.
understand and use data
represented in various ways
(e.g., charts, tables, plots and
graphs).
•
A.2.
understand descriptive statistics
(e.g., mean, median, mode and
standard deviation).
J.1.
select and use appropriate units
to express measurements for
real-world problems.
J.2.
know how to make estimates
and approximations and when
to use those approaches to
solve problems.
J.3.
use unit analysis in problemsolving.
J.4.
understand the differences
between the metric and the
traditional U.S. measurement
system and are able to perform
simple conversions between
the two.
J.5.*
A.3.
know the difference between
accuracy and precision, as well
as how to use significant digits
appropriately.
II. Science and Society
A. Successful students understand the
scientific enterprise. They:
A.1.
know ways in which science
and society influence each
other. For example, that:
•
scientific methods and the
knowledge they produce
may influence how
people think about
themselves and their
world.
•
technology can contribute
to the solution of an
individual or community
problem.
•
social and economic forces
strongly influence which
science and technology
programs are pursued,
invested in and used.
understand that predictions
based on sample data are
inferential.
J. Successful students understand and
apply concepts of measurement. They:
understand that science and the
theories of science are not
absolute and should be
questioned and challenged.
This includes the ideas that:
•
new theories will
continue to replace
current or older ones.
•
scientific theories must
stand up to the scrutiny
acceptable validation
includes reproduction and
internal consistency.
understand that science
involves different types of work
in many different disciplines.
For example:
•
different disciplines of
science approach
investigations in different
ways, such as using
different questions,
methods and evidence.
•
contributions from
different disciplines are
often required to
complete an investigation.
•
when traditional
disciplines meet, new
branches of science are
often formed, such as
geophysics and molecular
biology.
A.4.
know that scientists throughout
history have had many difficulties
convincing their contemporaries
to acknowledge what are now
generally accepted scientific ideas.
A.5.
understand that a host of
perplexing new problems is
generated by our society’s new
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A report from Standards for Success
powers (e.g., population
management, environmental
protection and regulation of
weapons of mass destruction).
A.6.
A.7.
know that technology is the
systematic use of materials,
energy, and information to
design, build, maintain and
operate devices, processes and
systems with a goal of serving
individual and societal human
needs.
understand that interactions
between science and technology
have led to refined tools (e.g.,
precision instruments, measuring
techniques, data processors, etc.),
and the means for a safer, more
comfortable life for more people
(e.g., electricity, transportation,
medical advances, etc.).
A.8.* know that investigations and
public communication among
scientists must meet certain
criteria in order to result in new
understanding and methods.
For example:
•
arguments must be logical
and demonstrate
consistency between
natural phenomena
revealed by investigations
and the historical body of
scientific evidence.
•
the methods and
procedures used to obtain
evidence must be clearly
reported and reproducible
to enhance opportunities
for further investigation.
46 Natural Sciences
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(hydrology and oceanography)
and the atmosphere
(meteorology and
atmospherics), and that the
relationship is best exemplified
by the water cycle.
B. Successful students understand
concepts related to geology. They:
B.1.
are familiar with the history of
the Earth.
B.2.
are familiar with the history of
the solar system.
B.3.
understand the processes of
volcanism and erosion.
C. Successful students understand the
interaction of the environment and
biota (including humans) and some
of the consequences of that
interaction. They:
C.1.
understand the notion of
habitats and their role in
evolution.
IV. Biology
III. Environmental Science
A. Successful students understand
concepts related to environmental
science. They:
A.1.
know that the earth is a body in
space whose environmental
system (the atmosphere,
lithosphere, cryosphere,
hydrosphere and biosphere)
depends largely on the sun for
light and heat and that the
current environment (e.g.,
geography and climate) is
subject to change.
A.2.* are familiar with environmental
processes (e.g., the carbon and
nitrogen cycles) and their role
in processing matter crucial for
sustaining life.
A.3.* understand that relationships
exist among the earth (geology
and soil science), the water
A. Successful students know the general
structure and function of cells. They:
A.1.
know that all living systems are
composed of cells, which are
the fundamental units of life,
and that organisms may be
unicellular or multicellular.
A.2.
know the importance of both
water and the element carbon
to cells, and further understand
that cells have four important
types of macromolecules
(carbohydrates, lipids, proteins
and nucleic acids) that are
each different in chemical
properties and have specific
functions in cells.
A.3.
understand that both unity and
diversity exist among cells.
A.4.
know that while all cells share
basic features (e.g., a plasma
membrane and genetic material
in the form of DNA), there are
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different types of cells
(prokaryotic and eukaryotic).
A.5.
A.6.
know that within multicellular
organisms there are different
types of cells and that these
cells perform different functions
for the organism.
know that different types of
organisms (plants versus
animals) have different cellular
specializations suited for the
organism’s lifestyle.
A.7.
understand the processes of cell
division (mitosis and meiosis),
particularly as those processes
relate to production of new
cells and to passing on genetic
information between
generations.
A.8.
know that in eukaryotic cells,
the organization of DNA into
chromosomes is key to both
duplication and distribution of
the genetic information to new
cells or organisms.
A.9.
know that in order to be alive,
cells must exchange materials
with their environment or with
other cells.
A.10.
know that cells transform
energy (ultimately obtained
from the sun) from one form
to another through the
processes of photosynthesis
and respiration.
A.11.* know that these processes lead
to the production of ATP, which
all cells absolutely require for
cell work.
A.12.* understand the chemical
reactions involved in cell
functions (e.g., food
molecules taken into cells are
broken down to provide the
energy and chemical
constituents needed to
synthesize other molecules,
and that enzymes facilitate the
breakdown and synthesis of
molecules).
A.13.* know that such exchanges
involve a variety of mechanisms
for transporting materials across
a membrane, including
diffusion, osmosis, and
transport involving specialized
membrane proteins.
48 Natural Sciences
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B. Successful students understand
genetic principles that guide the
inheritance of biological traits. They:
B.1.
B.2.*
understand Mendel’s laws of
heredity (e.g., genes and alleles;
genotype versus phenotype;
segregation and independent
assortment; and dominant
versus recessive traits).
Understand how Mendel’s laws
relate to the movement of
chromosomes to gametes
during meiosis and understand
the chromosomal basis of sex
determination.
know the chemical and
structural properties of DNA in
heredity and protein synthesis
(e.g., DNA synthesis,
transcription, translation;
mRNA and the genetic code;
and effects of mutations).
B.3.*
understand how recombinant
DNA technology allows
scientists to analyze the
structure and function of genes.
C. Successful students understand the
organization and classification of
living systems. They:
C.1.
know that multicellular
organisms have a variety of
specialized cells, tissues, organs,
and organ systems that each
perform specialized functions
(e.g., digestion, respiration,
circulation, excretion,
movement, control and
coordination, protection from
disease and reproduction).
Understand that the different
organ systems are integrated to
make a functional organism.
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C.2.
know ways in which living
things can be classified based
on each organism’s internal
and external structure, their
development, and relatedness
of DNA sequence.
D. Successful students understand
concepts of biological change and the
evolution of species. They:
D.1.
know how DNA and protein
sequences are used to infer
evolutionary relationships
among organisms.
A.3.
•
in the liquid state,
molecules have higher
energy and are more
loosely packed, sliding
freely past each other.
•
in the gaseous state,
molecules are less
restricted and move freely.
understand the structure of the
Periodic Table. For example that:
•
elements are arranged in
sequence by increasing
atomic number.
D.2.
understand the concept of
natural selection (differential
survival and reproduction of
chance inherited variants,
depending upon environmental
conditions).
•
the similar properties that
arise periodically in this
arrangement motivate the
grouping of elements into
columns that share
common properties.
D.3.
understand the theory of
evolution (e.g., the Earth’s
present-day life forms evolved
from earlier, distinctly different
species). Know that genetic
change among individuals of
populations is the raw material
for evolution of new forms.
•
this arrangement is useful
for predicting the
properties of elements
and compounds.
V. Chemistry
A. Successful students understand the
nature of the physical and
chemical properties of matter
(e.g., classifications of matter such as
compounds, mixtures and solutions,
as well as composition of matter such
as atoms and molecules). They:
A.1.
understand that atoms,
molecules and ions have a set
of physical and chemical
properties that control their
behaviors in a range of states.
A.2.
know that states of matter
depend on molecular
arrangement and freedom of
motion. For example:
•
in the solid state, molecules
are packed tightly together
with their motion restricted
to vibrations.
50 Natural Sciences
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A.4.*
understand acid and base
chemistry.
ways with other substances to
form new substances
(compounds) with different
characteristics and properties.
A.5.* understand principles of ideal
gas behavior.
B. Successful students know principles
of atomic structure and bonding.
They:
B.1.
know the structure of an atom.
For example:
•
B.2.
B.3.
that negative electrons
occupy most of the space
in the atom.
•
that neutrons and positive
protons make up the
nucleus of the atom.
•
that protons and neutrons
are almost two thousand
times heavier than an
electron.
•
C.2.* understand the meaning and
uses of chemical equations and
employ such equations to
quantify relationships between
products and reactants. Examples
of the meaning and use of a
chemical equation include:
•
A.1.
know that substances react
chemically in characteristic
conservation of mass and
atoms.
•
moles in chemical
equations and formulas.
•
molar mass, relative mass,
molar volume and
Avo gadro ’s number.
understand the relationship
between heat and temperature.
Fo r example:
•
that heat energy consists of
the random motion and
vibrations of atoms,
molecules and ions.
•
the higher the
temperature, the greater
the atomic or molecular
motion.
A.2.
understand the conservation of
energy and the First Law of
Thermodynamics (i.e., energy
cannot be created or destroyed
but only changed from one form
to another) and understand that
energy must be transferred via
work or heat.
A.3.
understand the concept of
entropy and the Second Law of
C. Successful students understand and
apply principles that explain chemical
reactions. They:
C.1.
•
A. Successful students understand
concepts of energy. They:
elements with similar
electronic configurations
have similar properties.
elements interact with one
another on the atomic
level by transferring or
sharing the outermost
electrons to form covalent,
ionic or metallic bonds.
molar or molecular
quantities.
VI. Physics
understand how the electronic
configuration of atoms governs
the chemical properties of an
element. For example that:
•
mass balance.
•
C.3.* understand the mole concept
and its applications. For
example:
that the electric force
between the nucleus and
electrons holds the atom
together.
understand that molecules are
composed of atoms in unique
and consistent arrangements,
and that atoms or molecules
may form solids by building up
repeating patterns (e.g., crystal
structures or polymers).
•
Natural Sciences 51
A report from Standards for Success
Thermodynamics (i.e., why
engines and refrigerators are
not 100 percent efficient, as
well as the concept that
disorder, in general, increases as
some energy is always lost into
non-usable forms).
A.4.
understand the distinction
between kinetic (thermal,
translational and vibrational)
and potential (gravitational and
electrostatic) energy.
A.5.
understand how energy can be
transferred from one form to
another.
A.6.
understand basic principles of
optics.
A.7.
understand basic principles of
electricity and magnetism.
A.8.
understand series and parallel
circuits.
B. Successful students understand
motion and the principles that
explain motion. They:
B.1.
understand Newton’s laws as a
classical description of motion,
for example that:
B.2.
•
a force is required to alter
an object’s motion.
•
in the absence of force, or
when forces are balanced,
no change in motion is
observed.
•
forces are additive and the
motion of an object is
determined by the
cumulative effect.
know the characteristic
properties of sound, and
electromagnetic waves; that
these waves have energy; that
such waves can transfer energy
when they interact with matter;
and that characteristic properties
include:
•
B.3.
wavelength, frequency,
amplitude, speed,
absorption, reflection
and refraction.
know the range of the
electromagnetic spectrum. Fo r
example:
•
radio waves, microwaves,
infrared radiation, visible
light, ultraviolet radiation,
x-rays and gamma rays.
52 Natural Sciences
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B.4.
know that electromagnetic
waves result when a charged
object is accelerated and that
the energy of electromagnetic
waves is carried in wave packets
whose energy is inversely
proportional to the wavelength.
C. Successful students know the kinds of
forces that exist between objects.
They:
C.1.
C.2.
understand general concepts
related to gravitational force (e.g.,
every object exerts gravitational
force on every other object, and
this force depends on the mass of
the objects and their distance
from one another).
know that materials that contain
equal amounts of positive and
negative charges are electrically
neutral, but that a very small
excess or deficit of negative
charges in a material produces
noticeable electrical forces.
C.3.* understand magnetic and
electric fields and the
relationship between those
fields, and that these fields can
be thought of as different
aspects of a single electromagnetic field (moving electric
charges produce magnetic fields
and moving magnets produce
electric fields).
D. Successful students understand
concepts related to modern physics.
They:
D.1.
understand the general
concepts related to the theory
of special relativity. For
example:
•
in contrast to moving
objects, the speed of light
is the same for all
observers, no matter how
they or the light source
happen to be moving.
•
that nothing can travel faster
than the speed of light.
D.2.
know the constituent particles
that make up atoms (i.e., protons,
neutrons and electrons) and have
a general understanding of
physical locations of each (i.e.,
protons and neutrons in the core
nucleus and electrons in a cloud
“far” away from the nucleus).
E. Successful students understand
concepts related to matter and its
properties. They:
E.1.
know what mass is and how it
differs from weight and inertia.
E.2.
know the meaning of density.
E.3.
know that the physical
properties of matter and waves
are scalar or vector quantities.
E.4.*
understand specific heat,
thermal and electrical
conductivity.
F. Successful students understand basic
laws. They:
F.1
know conservation laws of
energy (and the conversion of
energy from one form to
another), mass and
momentum.
F.2
understand the laws governing
electrical and magnetic forces.
F.3
understand the relationship
between electrical currents and
magnetic fields.
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A report from Standards for Success
Students need to be able to translate instructions into actions and translate actions into descriptions. They must describe the work
they have done using simple declarative sentences and paragraphs.
Faculty Viewpoint
Social Sciences
Students need to have a curiosity about the questions we raise in the class, and a
desire to want to explore the complexity of the social and moral issues we address.
Then you can give them the tools. If they are disengaged from education, then it
is a lot harder.
Faculty Viewpoint
Knowledge & Skills
Foundations
In the social sciences, incoming students
succeed when they are armed with specific
knowledge and skills—but above all, when
they are ready to embrace the learning
process.
Basic Knowledge & Skills
Students who are ready for entry-level
courses are familiar with the fundamental
concepts of social sciences such as history,
economics, geography, political science,
sociology.
In geography, well-prepared students
know how to read, interpret and locate
places on a global map. They are familiar
with worldwide immigration and migration patterns.
In economics courses, successful students
come prepared with foundational mathematical skills and an understanding of
basic concepts such as demand, supply,
scarcity, opportunity and tradeoffs.
In political science, a basic civic knowledge
is necessary for success. Such basic
knowledge includes a sense of how the U.S.
government works; an awareness of the
system of legislative, executive and judiciary
checks and balances; and how an amendment is ratified. In addition, successful
students have a basic knowledge of, and can
distinguish between, economic and political
systems. They can describe the differences
between capitalism and socialism and
between democracy and oligarchy.
In history, students who are ready for
college-level study know important events
and documents that have shaped the course
of U.S. history; the U.S. Constitution,
Federal Indian Policy and the Civil Rights
movement, to name a few. A clear
knowledge of significant periods in western
and non-western world history is crucial,
including, for example, the origins of
Judaism, the rise and fall of Ancient Greece,
the influence of Christianity and the
Crusades on European culture and society,
the Aztec civilization, the French and
Russian Revolution, and the rise to
independence in the post-colonial period
of countries in South America, Africa and
Asia, in particular.
In sociology, successful students
understand and are able to discuss the
implications of changes in U.S. demographics leading to increasing diversity.
They understand the major issues in
gender equity and are aware of
contemporary social, political and cultural
movements in U.S. society and around the
world, and the major theories that
underlie such movements.
Beyond the basic facts, students entering
social science courses need certain skills.
Just as in the natural sciences, second
languages, mathematics and
English,
successful students know the mechanics of
writing and basic grammar and comunicate
their ideas with clarity and coherence.
Familiarity with the terminologies and
definitions that pertain to each discipline is
also important. Basic mathematical and
statistical knowledge (arithmetic and
algebra, means and correlations) helps
students read and understand graphs in
economics and analyze and interpret
statistical data in sociological, historical
and geographical reports.
56 Social Sciences
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Successful students are aware of the
diversity and relativity of historical
perspectives and interpretations. As they
learn about world events, memorize dates
and understand various historical periods,
they realize how people in various regions
of the world have experienced similar
events in different ways. Local experience
adds to comprehension of a historical
phenomenon. Students who have the
ability to make interdisciplinary connections have a broader and deeper sense of
history. When students see the relevance of
economics, culture, geography and politics
in the shaping and unfolding of historical
events, they gain more from college-level
social science courses.
General Sense of History &
Geography
Beyond the memorization of dates and
events that have marked and shaped the
world in general (and the U.S. in particular)
successful students have a sense of history.
An understanding of chronological sequence and causation across time is vital.
Students should possess factual knowledge,
be accurate when discussing historical dates
and understand how historical sequencing
and events influence one another. Students
should be able to describe how their current
place in time is influenced by the past and
informs their future.
Students need to have a sense of the fundamentals of capitalism, how and why it is
different from other forms of economic systems
and the types of governments and societies
associated with it.
Faculty Viewpoint
In addition to a sense of history, social
science students benefit greatly from a sense
of place. Successful students know how to
read maps. They approach geography from
cultural, economic and political perspectives. Armed with these skills, students
better realize how geographical contexts
often contribute to the development of a
society. They also recognize how contexts
influence the ways in which people see the
world; it is more useful, for example, to
know how water use affects society than to
memorize the exact borders of all the
countries in Africa.
Reading, Research & Analysis
Reading—and reading well—is a very
important part of the learning process.
Successful college-level students comprehend assigned reading material and read
closely, with attention to nuance. Close
reading leads students to infer and extend
meaning by identifying main points and
distinguishing supportive statements from
illustrative details. Successful students can
gauge their own comprehension of the
material and know what to do when they
encounter reading that is difficult. Social
sciences are related and are not simply a
gathering of facts. To understand these
Social Sciences 57
A report from Standards for Success
relationships, successful students are familiar
with the scientific method. They ask
questions such as, “What do we know?” and
“How do we know it?” The scientific method
in the context of the social sciences
encompasses a number of skills and abilities:
1.
The capacity to recognize
hypotheses within texts and
understand when evidence is
being presented. This is a critical
reading skill that helps a student
evaluate the quality and relevance
of materials used to build and
support an argument.
2.
A familiarity with theory building,
what a theory is, how a theory
is developed and how a theory can
be tested, debated and applied.
Successful students can differentiate
theory from opinion in a text.
3.
The ability to find information—
information literacy—from a
variety of sources, including the
library and Internet. Part of this
skill is the ability to assess the
quality and reliability of
information, especially if the
source is found online. Successful
students ask themselves questions
such as, “Where does this
information come from?”, “Is it
well supported?” and “Is this
information relevant or irrelevant
to the support of my thesis?”
4.
The ability to generalize while at
the same time recognizing their
own biases and identifying fallacies
in materials they read. Faculty
members expect students to voice
opinions, to speculate and to relate
personal experiences within
assignments, but only if they also
generalize to principles discussed
in class or connect personal
knowledge to the material covered.
5.
An awareness of various research
methodologies, including
quantitative and qualitative
traditions of data analysis.
Students need to understand that a theory is a
way of organizing information to help enhance
our understanding of behavior.
Faculty Viewpoint
In addition to reading and research, notetaking is an important part of college-level
study. Entry-level courses are typically lectures
where students are expected to take notes
diligently, to identify key components of the
lecture and to appreciate how notes are
essential to understanding the content of a
course. To make all of this work, students
need to know that taking notes is a learning
process in itself. Successful students decide
whether a piece of information is important
or relevant before they write it down. They
think about how they will use the notes after
the lecture is over. They know how to prepare
an outline with coherent sections and
subsections and understand how this
exercise relates to organizing the information they collect, either from lectures or
other sources.
58 Social Sciences
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Orientation Towards Learning
In many ways, learning is about the communication of facts, concepts and ideas.
Successful students use a variety of communication skills to show that they understand
class material. Writing is one such medium of
communication, but clear oral and visual
communication is important, as well. Good
communication includes engagement with
an audience, whether it is one reader or
hundreds. When presenting information,
good communicators are attentive listeners to
the questions and concerns of others. Good
academic communication also includes
accepting criticisms by others and answering
questions with an attentive, positive attitude.
Connections between ideas and facts are
vital to the learning process. Successful
students make connections regularly
between public knowledge and personal
observations and experiences. They make
connections across disciplines. How do the
ideas in economics classes relate to everyday
life? How do the concepts learned in
sociology apply to the study of geography?
Connective intelligence enables students to
integrate and use knowledge from across
different disciplines both within social
sciences and in other areas.
Students need to understand that things
happen in sequence and that something that
happened later can’t cause something that
happened earlier.
Faculty Viewpoint
Just as students are encouraged to make
connections between disciplines, they are
encouraged to anchor historical, geographical or sociological materials to a sense of
self. Successful students are engaged
intellectually with the material they
encounter in their studies. Rather than
focusing entirely on outcomes and grades,
they engage in the learning process and
accept a challenge to do something new.
They are comfortable with ambiguity.
Students often come into classes in a quest
for answers alone. Some questions and
problems have no obvious solutions, while
others have more than one solution. Social
science faculty members, much like their
peers in other disciplines, expect students to
demonstrate a variety of study skills that
will help them succeed in college. These
include taking personal responsibility for
their work, showing up to class, doing
homework and reading assignments,
completing written assignments on time
and managing their time well.
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A report from Standards for Success
Social Sciences
Standards
A.3.
know that each social science
discipline is subject to certain
criticisms and limitations, and
are aware of the primary
criticisms and limitations of at
least one discipline in the
social sciences.
A.4.
are aware of major current
world events, issues and
problems and know how
concepts and theories in the
social sciences can be applied to
understand them.
A.5.
perceive events and
circumstances from the vantage
point of others, including those
in racial and cultural groups
different than their own; from
the other gender; from other
ages; and from those who live
under other political and
economic systems.
*= Items with an asterisk are those expected of
students who plan to major in a social science.
I. General Knowledge & Skills
A. Successful students have a basic
understanding of the social sciences
(history, economics, geography,
political science, sociology). They:
A.1.
know the defining
characteristics of disciplines
within the social sciences.
A.2.
understand the diversity of
human beings and human
cultures (e.g., cultural,
biological, emotional and
intellectual diversity).
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A.6.* integrate concepts learned from
at least two different social
science disciplines.
A.7.* understand the significant
generalizations, principles and
theories of each discipline.
II. History
A. Successful students know significant
periods and events in United States
history. They:
A.1.
understand important events,
social movements and political
processes that have shaped U.S.
history, and are aware of the
major historical figures that
influenced history. These
include but are not limited to:
•
European exploration and
colonization, 15th and
16th centuries
•
interaction of Native
Americans and European
settlers
•
development of American
colonial government
•
causes and consequences
of slavery
•
The Revolutionary War
•
creation of the U.S.
Constitution
•
The Bill of Rights
•
development of political
parties
•
westward expansion
•
The Mexican-American
War
•
antebellum sectionalism
and polarization
•
The Civil War
•
reconstruction
•
industrialization and the
rise of big business
•
Federal Indian Policy of
the late 19th century
•
Spanish-American War
•
The Progressive
Movement
•
social and cultural
movements of the 1920s
•
The Great Depression
•
The New Deal
•
U.S. in World War II
•
The Cold War
•
The Civil Rights
Movement
•
Vietnam
•
immigration and
migration patterns in the
contemporary U.S.
•
the influence of religion
on U.S. history
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A report from Standards for Success
B. Successful students know significant
periods and events in world history
and social, religious and political
movements, as well as major
historical figures who influenced such
movements. They:
B.1.
understand important events
and social, religious and
political movements that have
shaped world history, as well as
the major historical characters
who influenced history.
Examples of important topics
and areas include but are not
limited to:
•
early civilizations in India
and the Middle East
•
development of Judaism
•
Ancient Greece
•
rise and fall of Ancient
Rome
•
emergence of Christianity
•
development of
Buddhism
•
The Byzantine Empire
•
emergence of Islam
•
Mayan civilization
•
feudalism/manorialism in
Medieval Europe
•
the influence of
Christianity in Europe
and the Crusades
•
The Aztecs
•
the exchange of
flora/fauna/pathogens
known as the “Columbian
Exchange”
•
The Renaissance
•
The Scientific Revolution
•
The Reformation and
Counter (or Catholic)
Reformation
•
The French Revolution
•
The Industrial Revolution
•
European nationalist
movements of the 19th
century
•
World War I
•
The Russian Revolution
•
World War II
•
The Cold War
•
African and Asian history
C. Successful students understand
historical perspective and historical
analysis. They:
C.1.
understand their own position
in history and how history has
influenced their kinship group
and family ancestors.
C.2.
know the effects that specific
human decisions have had on
history.
C.3.
understand the contingency of
history; that is, events depend
on human ideas and actions
and that things may have been
different in the absence of those
ideas and actions.
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C.4.
C.5.
demonstrate the ability to
perceive past events with
historical empathy.
know the influences that
specific ideas and beliefs had
on a period of history and how
events may have been different
in the absence of those ideas
and beliefs.
C.6.* know how to evaluate the
credibility and authenticity of
historical sources.
C.7.* know how to evaluate different
historical interpretations.
C.8.* understand the social,
economic and political climate
of significant periods in history
and how a particular climate
shaped those who lived at that
time.
III. Economics
A. Successful students understand basic
concepts of economics. They:
A.1.
understand the basic economic
concepts of scarcity,
opportunity cost, trade offs,
markets and supply and
demand.
A.2.
understand the difference
between a market economy
(capitalism) and a central
planned or command economy.
A.3.
understand the role government
plays in the U.S. economy.
A.4.
understand the concepts of
exchange and trade and the
impacts of a global economy,
including implications for
individuals, the U.S. and other
nations.
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A report from Standards for Success
A.5.
understand the conflict among
the social goals of an economic
system (e.g., security, freedom,
equity, efficiency, stability and
growth).
B. Successful students have a basic
understanding of the U.S. political
system and its history. They:
B.1.
know basic facts about the U.S.
political system and
constitutional government (e.g.,
federalism; checks and
balances; and legislative,
executive and judiciary
branches of power).
B.2.
understand the content and
context of documents that
established the U.S., especially
the Declaration of
Independence and the U.S.
Constitution.
B.3.
understand the content and
context of documents
important for the protection of
individual rights in the U.S.,
especially the U.S. Constitution
and the Bill of Rights.
B.4.
know the methods citizens can
use to participate in the
political process at local, state
and national levels, and how
political participation can
influence public policy.
A.6.* understand and know how to
use economic analysis tools,
including functions and basic
statistics.
IV. Geography
A. Successful students have a basic
understanding of the tools and
concepts of geography. They:
A.1.
use maps and atlases to find
locations and other
geographical information.
A.2.
understand the nature,
distribution and migration
patterns of human populations
on Earth’s surface.
A.3.
understand the role of geography
in explaining processes of
environmental and human
change.
A.4.* realize the advantages and
disadvantages of maps, globes
and other geographic tools used
to illustrate data sets.
V. Political Science (Civics)
A. Successful students have a basic
understanding of types of
governments. They:
A.1.
understand the nature and
source of various types of
political authority (e.g., the
differences between democracy
and oligarchy).
A.2.*
know the various types of
governments throughout the
world (e.g., the differences
between limited and unlimited
governments).
VI. Sociology
A. Successful students have an
understanding of social problems,
social structure, institutions, class,
groups and interaction. They:
A.1.
understand that social problems
are larger than the individual.
A.2.
understand that social
inequalities based on a variety
of factors—including gender,
race and age—exist and have a
range of effects on society.
A.3.
understand the global diversity
of various family forms, as well
as kinship in different societies.
A.4.
understand that group and
cultural influences contribute to
human development.
A.5.
understand that group and
cultural influences contribute to
human identity.
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A.6.
understand that group and
cultural influences contribute to
human behavior.
A.7.* understand various meanings of
the social group, the general
implications of group
membership and the different
ways that groups function.
A.8.* understand the theory and
methods of mediation,
cooperation and conflict
resolution.
VII. Inquiry, Research & Analysis
A. Successful students understand the
scientific method of inquiry and
investigation. They:
C. Successful students know how to find
a variety of sources of information,
and how to analyze, evaluate and use
them properly. They:
C.1.
locate information from a
variety of sources appropriate to
the task at hand.
C.2.
draw inferences then determine
main and supporting ideas.
C.3.
critically evaluate information
by discerning the quality of the
materials.
C.4.
critically evaluate information
by qualifying the strength of the
evidence and arguments.
C.5.
critically evaluate information
by determining its credibility.
A.1.
understand how hypotheses
are formulated to examine
social behavior.
C.6.
critically evaluate information
by identifying any bias and/or
perspective of the author(s).
A.2.
understand that hypotheses are
contingent—that they can be
disproved by additional
evidence.
C.7.
critically evaluate information
by using prior knowledge.
C.8.*
demonstrate familiarity with a
data analysis software program.
A.3.
understand that well-tested
hypotheses may be integrated
into a theory predicting social
behavior.
A.4.
know how to apply a theory to
new evidence.
A.5.
understand how to write and
test a hypothesis using
additional evidence.
A.6.
know the ethics associated
with data collection and
human subjects.
A.7.
understand the limits of
scientific investigation.
B. Successful students are able to read
and interpret data. They:
B.1.
B.2.*
B.3.*
know how to interpret data
presented in tables and graphs.
know the basics of probability
theory and the concept of a
sample.
know the difference between
statistical and substantive
significance.
D. Successful students are able to
identify and analyze problems
appropriate to the social science
discipline being studied. They:
D.1.
identify and define a problem.
D.2.
use deductive and inductive
problem-solving skills as
appropriate to the problem
being studied.
D.3.
use multiple perspectives and
resources to analyze a problem.
VIII. Communication
A. Successful students are able to
communicate clearly and coherently.
They:
A.1.
present a coherent thesis when
making an argument.
A.2.
support the thesis with
appropriate evidence when
making an argument.
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A report from Standards for Success
A.3.
anticipate and answer possible
objections when making an
argument.
•
identifying complexities
and discrepancies in
information
A.4.
present a concise, clear closing
when making an argument.
•
offering support for
conclusions
A.5.
organize ideas to achieve
coherence in communication.
A.6.
write research papers that
incorporate processes
appropriate to the topic being
researched. These include:
•
integrating information
from a range of
appropriate sources
•
logically introducing and
incorporating quotations
•
synthesizing information
into a logical sequence
•
identifying different
perspectives
A.7.
understand the concept of
plagiarism and how to avoid it
through the use of
paraphrasing, summarizing,
quoting and citing.
A.8.
identify and use parts of speech
correctly and consistently (e.g.,
verbs, conjunctions,
interjections).
A.9.
use a variety of sentence
structures in writing (e.g.,
compound-complex,
analogous).
Second Languages
Students should have the ability to recognize cues in language and extrapolate
from them. They need to learn to be good guessers and to figure out meanings of
words from context instead of constantly going to a dictionary.
Faculty Viewpoint
Knowledge & Skills
Foundations
The goal of second language study is to
communicate effectively with speakers of
another language in authentic cultural
contexts. Learning another language
involves much more than memorizing a
system of grammatical rules. It requires
learners to understand the cultures from
which the language arises and in which it
resides, use the language to communicate
accurately and use their first language and
culture as a model for comparison with the
language and culture being learned. Second
language proficiency can improve learning
in other disciplines, such as English, history
and art, and expand professional, personal
and social opportunities.
The Basics
Successful students know the basics of
grammar and vocabulary of both their first
language and the second language they
choose to study. They are able to recognize
verb tenses and parts of speech,
understand the linguistic functions these
elements perform and compare them to
their equivalents in their first language.
This formal knowledge will help students
learn and use a second language while
giving them a deeper understanding of
their first language.
Students in entry-level courses should
have emerging competence in four areas:
communication, culture, comparisons and
learning strategies.
Communication. Successful students are
able to read, write and converse at the
Intermediate-Low proficiency level as
defined by the American Council on the
Teaching of Foreign Languages Proficiency
Guidelines (see ACTFL at www.actfl.org).
Essentially, this means that students can
use the second language to express
themselves in simple, full sentences.
Students who are ready for entry-level
courses have pronunciation that is
comprehensible, but they are not expected
to approach the quality or accuracy of a
native language speaker.
Culture. Language is inseparable from
culture. In order to communicate effectively
in an authentic cultural context, students
must be aware of the practices and
perspectives of the culture. This involves
knowledge of geography, holidays, lifestyles
and material resources of the countries and
peoples where the second language is
customarily spoken. A student of Japanese
might be expected to know that Japanese
people bow when greeting each other and
to understand the value of humility in
Japanese culture that underlies this routine
practice. The student should also be able to
know what language is appropriate to
particular cultural situations.
Comparisons. The ability to view facts
from multiple perspectives is an important
critical thinking skill developed through
second language study. A solid knowledge
of a first language and culture is a starting
point for making comparisons and drawing
contrasts with the second language and
culture. For a native English speaker, a
comparison of English to another language
will deepen his or her understanding of
English, of the second language and of the
nature of languages in general. Similarly, a
comparison of American cultural products,
practices and perspectives to those of
another culture will lead students to a more
profound understanding of what it means
68 Second Languages
A project of the AAU & The Pew Charitable Trusts
to be an American, what it means to be part
of another culture, and the nature of social
roles, values and customs.
Learning Strategies. Critical thinking is
not only a by-product of second language
learning, but also a powerful tool for
enhancing language acquisition. Metacognitive and meta-linguistic knowledge,
mnemonic devices, inference, critical
reading, process writing and other strategies
should be evident by the time a student
begins an entry level course at a university.
The degree to which a student employs
these strategies will be a critical factor in
determining college success, regardless of
second language proficiency level upon
entrance. A student who knows how to
enhance comprehension by effectively
negotiating meaning, for example, may be
more successful than a student with
superior knowledge of the language itself
who relies solely on studying the textbook.
Second Languages
Standards
*= Items with an asterisk are those expected of
students who plan to major in a second language.
I. Communication Skills
A. Successful students use a language
other than their first language to
exchange information and interact
with others within realistic contexts.
This is known as the interpersonal
mode. They:
A.1.
are able to communicate in an
on-demand interview at the
Intermediate-Low level for
European languages, or NoviceHigh level for non-European
languages (see ACTFL).
A.2.
are able to use the target
language to participate in
communicative classroom
activities and discussions with
peers and teachers.
Orientation Towards Learning
It is important that a student can tolerate
both linguistic and cultural ambiguity.
Successful students accept the linguistically
ambiguous aspects of a language, such as
grammatical exceptions or words with no
exact translation. In studying culture, they
understand that meaning is culturally
constructed—few absolute rules of behavior
exist in any society, and context determines
both meaning and appropriate behavior.
The particular strategies an individual
student uses will vary, but common to all
successful
students
are
emotional
engagement with the language and culture
and openness to thinking about other ways
of acting and communicating.
Judgmental attitudes towards other languages
or cultures impede the acquisition of another
language.
Faculty Viewpoint
B. Successful students are able to express
personal meaning in a language other
than their first language in a variety
of genres and formats. This is known
as the presentational mode. They:
B.1.
use writing processes such as
brainstorming, drafting, revising
and proofing to produce short
texts in the target language.
B.2.
use some basic cohesive
devices in discourses in the
target language.
B.3.
demonstrate a developing
awareness of audience, context
and genre throughout a
prepared composition or speech
in the target language.
B.4.*
are able to defend an opinion,
argument or point of view
regarding other cultures,
academic disciplines or
international topics in a
prepared, edited text in the
target language.
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C. Successful students construct meaning
from authentic spoken and written
sources that are in a language other
than their first language. This is
known as the interpretive mode. They:
C.1.
C.2.
C.3.
are able to identify the genre of
authentic texts written in the
target language, for example,
poems, news articles and essays.
can ascertain meaning from
context when they confront
unfamiliar words and phrases
in the target language.
are able to distinguish main
ideas from supporting details
within a text written in the
target language.
C.4.* are able to identify literary
devices such as point of view,
narrative voice and others in
texts written in the target
language.
C.5.* begin to analyze an author's use
of language and literary devices
within text written in the target
language.
II. Culture
A. Successful students are aware of
products, practices and perspectives
of the target culture and are able to
apply that knowledge in
communicative contexts. They:
A.1.
are able to locate on a map
and identify by name countries,
continents and geophysical
landmarks relevant to the target
language.
A.2.
know basic historical facts and
cultural traits of the target
language country or countries,
including the range of
languages spoken.
A.3.
show knowledge of current
events in the target language
culture or cultures.
A.4.
are able to identify and
articulate in their first language,
if necessary, perspectives
embodied in the culture that
uses the target language.
70 Second Languages
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A.5.* are able to identify major
physical artifacts and cultural
practices of the target language
culture or cultures expressed in
the form of monuments, icons
and customs, and how cultural
practices influence daily life.
A.2.
work effectively in a group to
help enhance language learning
for themselves and for group
members.
A.3.
are willing to speak in the target
language in front of teachers,
peers and those who are fluent
in the target language.
III. Structure
A.4.
A. Successful students have a basic
knowledge of English syntax,
semantics and discourse structures
and are able to compare these with
analogous forms in the target
language. They:
are willing to take risks with the
target language as they practice
new grammatical structures and
vocabulary.
A.5.
recognize most common parts
of speech, including nouns,
verbs, adjectives, articles and
adverbs in English and the
target language.
know how to use the dictionary
and other reference materials in
English and the target language
as tools to enhance
understanding of the target
language.
A.6.
understand the role of grammar
and context in various linguistic
functions in English and the
target language.
have an interest in other
cultures, possess curiosity and a
willingness to learn about those
cultures.
A.7.
understand and compare how
simple clauses are formed in
English and the target language.
use questions and other
strategies to elicit responses from
classmates as well as from fluent
speakers of the target language.
A.8.
use mnemonic and
memorization strategies to
enhance the learning of the
target language.
A.9.
employ knowledge of their first
language to help form and test
hypotheses regarding the target
language.
A.1.
A.2.
A.3.
A.4.
A.5.
A.6.
are able to identify and
compare the coding of tense
and aspect in English and the
target language.
apply writing conventions
accurately in English and the
target language.
know that a second language
cannot be thought of as a
simple word-for-word
translation of English.
IV. Learning Behaviors
A. Successful students demonstrate
awareness of the process of learning a
second language and are able to apply
a variety of strategies to that learning
process. They:
A.1.
apply personal discipline to the
language-learning enterprise.
A.10.* recognize and cope with
ambiguity and accept that
more than one answer is
possible, particularly when
trying to understand the
perspective of a different
culture.
A.11.* use meta-cognitive and
meta-linguistic strategies to
advance language learning and
cultural awareness.
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A report from Standards for Success
Students should understand their first language and be aware of its grammar and vocabulary. If students know parts of a sentence
in their first language, it speeds up the process of learning a second language. We waste a lot less time if they know the grammar of
their first language before they come to me to learn another one.
Faculty Viewpoint
The Arts
The pursuit of individual artistic excellence is a lifelong quest that begins by
developing a profound understanding and appreciation of the contributions made
by the most innovative creators in the field.
Faculty Viewpoint
Knowledge & Skills
Foundations
This section discusses the attributes of
students who are successful in the range of
creative endeavors known collectively as the
arts. Successful students display a wide
range of behaviors, some that can be
learned and others that are reflections of
personality traits and personal attributes.
Successful students in the arts are self-aware
individuals who use their time at the
university to continue and to intensify a
process of skill development and personal
growth designed to prepare them to be lifelong learners and participants in the arts.
Faculty members describe successful
students as those who can think independently, logically and then maturely.
Successful students understand themselves
as instruments of communication and
expression who demonstrate mastery of
basic oral and physical expression through
sound, movement, and visual representations. They embrace a diversity of
academic interests from world cultures and
political history to scientific research,
sociology, psychology and the study of
religion. They view the arts as an instrument
of social and political expression. They
formulate and present difficult questions
through their personal artistic visions. They
are able to justify their aesthetic decisions
when creating or performing a piece of
work and know how to make decisions
regarding the proper venue for performing
or exhibiting any creative product.
One of the things that differentiates
college from high school is the longer
periods of time spent improving, revising
and perfecting work. Successful students
know how to practice in a sustained, focused
fashion without external supervision, how
to manage their time, and how to discipline
themselves to remain focused for extended
periods of time while mastering the
technical aspects of their area of endeavor.
Artists, like athletes, sometimes describe this
hard work as flow: a state of mind
characterized by high concentration and
blocking out of distractions, thus achieving
advanced levels of creativity. Time management and patience are essential. Starting a
project when it is assigned without
procrastination, learning to work in stages,
and planning so that it can be completed in
the amount of time given are critical skills
for all arts students. At the same time,
successful students do not lose touch with
the larger campus co mmunity and , in fact,
participate in a wide range of campus
activities and interact with a cross-section of
the student body.
Students prepared for study in the arts
demonstrate intellectual curiosity and a
willingness to experiment with media.
These students strive to develop their
creativity and ingenuity by struggling with a
concept, an object, a space, or a sound.
Rather than solely fixating on proper form,
they seek to utilize knowledge of form to
facilitate and support personal creative
development. They are aware and curious
about genres with which they are not
familiar and are eager to experiment with
them. They are willing to learn about a
diverse range of historical eras and practices
related to the arts.
Many arts courses at the college level
require research skills in part because the
creative process of producing one’s own
74 The Arts
A project of the AAU & The Pew Charitable Trusts
Successful students are able to accept
criticism about their own artwork or
performance as well as to critique the work
of others. One cannot create art or perform
without considering at some point the
opinions of others. Students learn through
formal critiques how to distinguish
between constructive criticism and unfounded criticism and how to use
constructive criticism to become more selfanalytic. The underlying point of critiques
and feedback is not just to improve one’s
work, but also to foster self-reliance and to
build a peer network simultaneously.
Different methods of critique are used at
the college level. In some, the emphasis is
on listening to classmates’ comments; in
others, the student is expected to present
the class with a rationale for the work or
performance.
work usually raises questions about issues
that are external to the piece, particularly a
knowledge of what influences the piece.
This process requires research that incorporates cultural criticism. The presentation
of the research is often in the form of a
clearly written essay. Successful students
also know about the moral and legal issues
around plagiarism and can see the
difference between being influenced by
other artists and stealing from them.
It is crucial that students be able to think
critically. Students who are ready for
college-level study in the arts must be
capable of making independent judgments
about a work of art and not be afraid to ask
questions. Curiosity and a willingness to
explore many layers of meaning are
important to success, as well. Successful
students reflect on and assess the strengths
and weaknesses of others’ ideas and ways of
expressing them. In addition, they are
comfortable formulating and expressing
their own ideas.
Collaboration is an essential aspect of theatrical
production which is manifested in one’s ability
not only to effectively communicate a personal
creative idea but to also engage in an exchange of
ideas that will result in a shared artistic vision.
Faculty Viewpoint
A character trait that university-level arts
classes develop is helping students learn not
to get discouraged when they are asked to
do things that are complex or timeconsuming. Rising to the substantial
challenges students face in university-level
arts courses is an integral component of the
learning experience. Many students who
have been accustomed to being outstanding
find themselves in a community where
everyone is similarly gifted. The shock of
not being the best or the most
accomplished is often great for students in
entry-level courses. The challenge is to
embrace this new role and status and learn
from the diversity of expertise, talent and
creativity that now surrounds the student.
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A report from Standards for Success
The Arts
Standards
The Knowledge and Skills for University
Success standards in the arts are presented
in a somewhat different fashion than they
are in the other disciplines. The arts section
adopts a unique approach due to the fact
that arts classes are not necessarily taken
during the freshman year. Arts courses may
be experienced for the first time by students
at any point in their academic careers.
Thus, it is more difficult to identify arts
classes associated with first-year students,
the criterion used to identify knowledge
and skills in the other five academic
content areas addressed in this document.
Additionally, the arts are uniquely complex
in a number of other ways. First, the arts
include both the performing arts and arts
appreciation. Second, the arts comprise a
number of distinctly different areas of
emphasis. Music, art, dance and theatre
require more distinctly different skills and
knowledge than do biology and chemistry
or geography and history.
Knowledge and Skills, and Aesthetics and
Art Criticism Knowledge and Skills.
Although grouped under these headings for
organizational convenience, the knowledge
and skills are understood best when viewed
as being integrated within each heading
and across headings within a sub-area.
When students take an introductory course in
art history, they often discover a talent or
interest that they never imagined—and that’s a
significant part of what college is about:
personal discovery.
Faculty Viewpoint
I. Art History
Technical Knowledge and Skills
Students in introductory art history courses
are successful when they:
1.
Know a range of subject matter,
symbols and ideas in the visual arts.
2.
Know how characteristics of the
arts vary within a particular
historical period or style and how
these characteristics relate to ideas,
issues or themes in other artistic
disciplines. For example, paintings
often were made for specific
architectural contexts, such as a
mural made for a dining area or a
specific location in a Hindu
temple.
3.
Understand the connections
between various artistic genres and
media, such as the relationships
between music and art during a
given period.
4.
Know that characteristics of the
arts vary within a particular
historical period or genre.
5.
Connect characteristics of visual arts
within a particular historical period
or style with ideas, issues or themes
in the humanities, social sciences or
natural sciences.
Students should be able to consider the social
context of the dance performance and ask
pertinent questions about the conditions of
dance production and the intended audience
for the dance.
Faculty Viewpoint
The arts standards presented here
represent a set of general skills and abilities
derived from national arts standards
documents and the expressed values of arts
faculty. This section includes knowledge
and skills for art history, dance, music,
theatre and the visual arts. For each of these
sub-areas, knowledge and skills are grouped
under three headings: Technical Knowledge
and Skills, Cultural and Historical
76 The Arts
A project of the AAU & The Pew Charitable Trusts
Cultural and Historical
Knowledge and Skills
Students in introductory art history courses
do well when they:
1.
Recognize that artworks are
created in relation to major
cultural, socio-political and
historical periods.
2.
Reflect on how artworks differ
visually, spatially, temporally and
functionally, and according to
geographical place.
3.
Analyze common characteristics of
visual arts evident across time and
among cultural/ethnic groups to
formulate analyses, evaluations
and interpretations of meaning.
Aesthetics and Art Criticism
Knowledge and Skills
Students in introductory art history courses
do well when they:
3.
Use improvisation to generate
movement for choreography.
4.
Understand various complex time
elements, such as duple and triple
meters and tempi varied in
relation to a basic pulse.
5.
Create and perform combinations
and variations within a broad
range of dance styles.
6.
Can memorize and reproduce
extended movement sequences
and rhythmic patterns.
7.
Understand that dance is a way to
create and communicate meaning.
8.
Use movement choices to
communicate abstract ideas and
social themes in dance.
9.
Understand and demonstrate how
dance interpretation can be
influenced by personal experience.
Cultural and Historical Key
Knowledge and Skills
Students in entry-level dance courses do
well when they:
1.
Write clearly and cogently,
formulate logical arguments and
demonstrate intellectual curiosity.
2.
Are skilled in visual literacy; can
interpret artwork as a visual text.
1.
Understand dance across various
cultures and historical periods.
3.
Understand the link between the
artist and society, and understand
that artists are generally
professionals who are successful
in their time because they produce
what their audiences want to see.
2.
Compare and contrast the role
and significance of dance in
different social, historical, cultural
and political contexts.
3.
Place significant dance events of
the twentieth century in their
proper social, historical, cultural
and political contexts.
4.
Perform and describe similarities
and differences between two
contemporary theatrical forms of
dance, and know the traditions
and techniques of classical dance
forms.
II. Dance
Technical Knowledge and Skills
Students in entry-level dance courses do
well when they:
1.
2.
Possess technical skills in proper
body-part articulation, strength,
flexibility, agility and coordination
in locomotor and
nonlocomotor/axial movements.
Display an awareness of proper
breathing techniques, and
understand choreographic
principles, processes and
structures.
Aesthetics and Arts Criticism
Knowledge and Skills
Students in entry-level dance courses do
well when they:
1.
Discuss the intentions and effects
of dance work in both solo and
group dance performances.
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A report from Standards for Success
2.
Analyze and describe the tempo,
bodily precision, intention,
musicality, costumes, lighting,
space, rhythm, body position and
synchronicity between elements in
their critiques.
3.
Describe how a choreographer
manipulated and developed basic
movement content in a dance.
III. Music
Technical Knowledge and Skills
Students in beginning vocal or instrumental
college-level music do well when they:
1.
Can use their voice as a
performing tool.
2.
Can sing a varied repertoire of
vocal literature with expression
and technical accuracy at a
moderate level of difficulty
including some songs performed
from memory.
3.
Pay attention to phrasing and
interpretation, various meters and
rhythms in a variety of keys.
4.
Can sing music written in four
parts, with and without
accompaniment.
5.
Know how to play a varied
repertoire of music both alone
and with others.
6.
Can perform with expression
using appropriate dynamics,
phrasing, rubato and technical
accuracy with attention to
interpretation.
7.
Perform in various meters and
rhythms in a variety of keys.
8.
Perform in an ensemble,
demonstrating well-developed skills
in creating balance, varying
intonation and maintaining
rhythmic unity.
9.
Read and notate music that
contains moderate technical
demands.
10. Are familiar with music theory
and composition and can
demonstrate an ability to use the
elements of music for expressive
effect, including pitch, rhythm,
timbre, texture and form.
Cultural and Historical
Knowledge and Skills
Students in music courses do well when
they:
1.
Understand how music is related
to history and culture.
2.
Are able to classify unfamiliar but
representative aural examples of
music by genre, style, historical
period and culture, and to explain
the reasoning behind their
identification.
3.
Can identify and describe music
genres or styles that show the
influence of one or more cultural
traditions.
Aesthetic and Arts Criticism
Knowledge and Skills
Students who observe or listen to musical
performances do well when they:
1.
Know and apply appropriate
criteria to music and music
performances.
2.
Understand the technical
vocabulary of music—including
terms in Italian and markings for
form, harmony and tempo.
78 The Arts
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3.
Understand compositional devices
and techniques that are used to
provide unity, variety, tension and
release in a musical work.
4.
Can listen to, analyze and describe
music and music performances.
5.
Describe the elements of music in
a given work that make it unique,
interesting and expressive.
6.
Evaluate composition,
arrangement or improvisation by
comparing it to similar or
exemplary models.
7.
Compare ways in which musical
components are used in a variety of
works of the same genre or style.
8.
Understand and can describe the
relationships between music, the
other arts and disciplines outside
the arts.
IV. Theatre
Technical Knowledge and Skills
Students in entry-level theatre courses do
well when they:
1.
2.
3.
4.
5.
Demonstrate evidence of dramatic
experience including the ability to
analyze the physical, emotional
and social dimensions of
characters found in dramatic texts
from various genres and media.
Develop, communicate and
sustain characters in rehearsal, in
informal or formal productions
and in an ensemble that
communicates with audiences in
improvisations.
Understand what goes on behind
the scenes in terms of design,
direction and production of a
theatrical piece.
Possess the technical knowledge
and skills to collaboratively and
safely create functional scenery,
properties, lighting, sound,
costumes and makeup.
Can collaborate with directors to
develop unified production
concepts that convey the
metaphorical nature of the drama
for informal and formal theatre,
film, television or electronic
media productions.
Cultural and Historical
Knowledge and Skills
Students are successful in theatre when
they:
1.
Are familiar with the social,
cultural and historical contexts in
which theatre, film, television
and electronic media are
performed today and were
performed in the past.
2.
Demonstrate knowledge of
theatrical heritage.
3.
Are aware that theatre can reveal
universal concepts across time.
4.
Appreciate the ways in which
personal and cultural experiences
can affect an artist’s dramatic work.
5.
Understand and can describe how
their own cultural experiences
influence their work.
6.
Understand and appreciate
cultural and historical effects
influencing theatre.
7.
Compare, analyze and integrate
traditional theatre, dance, music,
visual arts and emerging art forms.
Aesthetics and Art Criticism
Knowlege and Skills
Students are successful in theatre when
they:
1.
Know how informal and formal
theatre, film, television and
electronic media productions
create and communicate meaning.
2.
Understand how social meanings,
represented by aural, oral and
visual symbols are communicated.
3.
Can identify how productions
and performances relate to
current issues.
4.
Understand that the context in
which a dramatic performance is
set can enhance or hinder its
effectiveness.
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A report from Standards for Success
5.
Are able to compare and explain
the roles and interrelated
responsibilities of people involved
in a production.
2.
Understand how visual, spatial,
temporal and functional values of
artworks are tempered by society,
culture and history
6.
Can describe the influence of
drama in film, television, rock
concerts and religious ceremonies
and other kinds of ceremonies
and performances.
3.
Show an understanding of the
work of critics, historians and
artists.
4.
Investigate the influence of
international and national
cultural institutions and art
policies on art and art making.
5.
Develop an appreciation of art as
a social agent that contributes to a
sense of community in situations
such as community forums, events
and festivals.
7.
Have good observational skills.
8.
Articulate and justify their
personal aesthetic criteria.
9.
Use their knowledge of other
aesthetic philosophies such as
Greek drama, Shakespearean
forms, Japanese kabuki and
others.
V. Visual Arts
Technical Knowledge and Skills
Students in entry-level visual arts courses do
well when they:
1.
2.
Know fundamental visual arts
techniques and processes in a
variety of media, including basic
drawing, color theory and design.
Initiate, define and solve
challenging visual arts problems
in order to create cohesive
artworks.
3.
Demonstrate awareness of how
emotions expressed in art give
new insight and clarity to issues.
4.
Differentiate between the
applications of various media and
understand how media generate
different types of expression.
5.
1.
Are willing to learn from the
process of evaluation by peers and
faculty.
2.
Apply intellectual skills such as
analysis, synthesis and evaluation
in visual art critiques.
3.
Discuss the implications of an
artist’s intentions.
4.
Demonstrate their own
interpretations and synthesize
those of peers, professors and
critics.
5.
Form and defend judgments
about artistic characteristics.
6.
Compare two or more
perspectives about the use of
organizational principles in an
artwork, and defend personal
evaluations of these perspectives.
7.
Reflect upon and assess how
artworks differ visually, spatially,
temporally and functionally.
8.
Balance between the ability to
identify and trust one’s instincts
and the ability to question one’s
preconceived assumptions.
Explore ways to integrate and
combine various arts media.
Cultural and Historical
Knowledge and Skills
Students in college-level visual arts courses
do well when they:
1.
Aesthetic and Art Criticism
Knowledge and Skills
Successful students in entry-level visual arts
courses:
View and identify examples of
artworks from a variety of cultural
contexts to understand their
function and meaning.
ISBN 0-9729538-0-9