Tutorials in Introductory Physics

Developed by: Lillian C. McDermott, Peter S. Shaffer and the Physics Education Group at UW

Level
 
middle schoolhigh schoolintro collegeinter-mediateupper levelgrad school   other


 Intro College Calculus-based
calc based
 Intro College Algebra-based
alg based

Topics
Mechanics  Electricity / Magnetism  Waves / Optics  Thermal / Statistical  Modern / Quantum
Setting
Lecture - Large (30+ students)  Lecture - Small (<30 students)  Recitation/Discussion Session  Lab  Homework


What? Guided-inquiry worksheets for small groups in recitation section of intro calculus-based physics. Instructors engage groups in Socratic dialogue. Worksheets use Elicit-Confront-Resolve model: Questions elicit known student difficulties and help students confront and resolve these difficulties.

Why? Each tutorial carefully guides students to overcome specific difficulties. Developed through rigorous research and redesign to ensure student learning. Can be plugged into a recitation section and led by teaching assistants and improve student learning without altering the rest of your course.

Why not? Designed for calculus-based physics courses, and may not work as well with other populations. Tutorials confront students' naive intuitions, which may give them a sense that their intuition is always wrong, reducing their confidence and enjoyment of physics. Students have to buy an extra book.

Example materials

 

Classroom video


Topic outline

Part I: Mechanics
Kinematics
Velocity
Representations of motion
Acceleration in one dimension
Motion in two dimensions
Relative motion

Newton’s laws
Forces
Newton’s second and third laws
Tension

Energy and momentum
Work and changes in kinetic energy
Conservation of energy
Conservation of momentum in one dimension
Changes in energy and momentum

Rotation
Rotational motion
Dynamics of rigid bodies
Equilibrium of rigid bodies
Conservation of angular momentum
Simple harmonic motion


Part II: Electricity and magnetism 

Electrostatics
Charge
Electric field and flux
Gauss’ law
Electric potential difference
Capacitance

Electric circuits
A model for circuits Part 1: Current and resistance
A model for circuits Part 2: Potential difference
A model for circuits Part 3: Multiple batteries
RC circuits

Magnetism
Magnets and magnetic fields
Magnetic interactions

Electromagnetism
Lenz’ law
Faraday’s law and applications

Part III: Waves
Superposition and reflection of pulses
Reflection and transmission
Propagation and refraction of periodic waves
Electromagnetic waves

Part IV: Geometrical optics
Light and shadow
Plane mirrors
Curved mirrors and multiple reflections
Interpretation of ray diagrams
Convex lenses
Magnification

Part V: Physical optics
Two-source interference
Wave properties of light
Multiple-slit interference
A model for single-slit diffraction
Combined interference and diffraction
Thin-film interference
Polarization

Part VI: Selected topics
Hydrostatics
Pressure in a liquid
Buoyancy

Thermodynamics
The ideal gas law
A microscopic model for an ideal gas
The first law of thermodynamics
Heat engines and the second law of thermodynamics

Modern physics: Waves and particles
Wave properties of matter
The photoelectric effect
Wave-particle duality

Modern physics: Special relativity
Events and reference frames
Measurement in special relativity
Simultaneity
Electric and magnetic fields in multiple frames of reference

Student skills developed

Designed for:
  • Conceptual understanding
  • Using multiple representations
Can be adapted for:
  • Problem-solving skills
  • Making real-world connections
  • Metacognition

Instructor effort required

  • Medium

Resources required

  • TAs / LAs
  • Simple lab equipment
  • Cost for students
  • Tables for group work

Developer's website: Tutorials in Introductory Physics
Intro Article: L. McDermott, Oersted Medal Lecture 2001: "Physics Education Research-The Key to Student Learning", Am. J. Phys. 69 (11), 1127 (2001).
External Resources

You can learn more about facilitating tutorials from our series of videos on the implementation of Tutorials in Introductory Physics in the University of Colorado.

The University of Washington Physics Education Group regularly welcomes visitors interested in learning more about implementing tutorials. Contact them to arrange a visit.

Tutorials in Introductory Physics come in a book published by Pearson. You can order them from Pearson or from Amazon. You can download a sample tutorial from PhysPort.

You can find instructor guides and other resources for supporting the implementation of Tutorials in Introductory Physics on the UW Tutorials curriculum page.

 

RESEARCH VALIDATION
Gold Star Validation
This is the highest level of research validation, corresponding to:
  • both of the "based on" categories
  • at least 4 of the "demonstrated to improve" categories
  • at least 5 of the "studied using" categories
(Categories shown below)

Research Validation Summary

Based on Research Into:

  • theories of how students learn
  • student ideas about specific topics

Demonstrated to Improve:

  • conceptual understanding
  • problem-solving skills
  • lab skills
  • beliefs and attitudes
  • attendance
  • retention of students
  • success of underrepresented groups
  • performance in subsequent classes

Studied using:

  • cycle of research and redevelopment
  • student interviews
  • classroom observations
  • analysis of written work
  • research at multiple institutions
  • research by multiple groups
  • peer-reviewed publication

References