- Calibrated Peer Review
- Class Response Systems
- Cooperative Learning
- Group Work
- Interactive Lectures
- Investigative Case Based Learning
- Just in Time Teaching
- Peer Review
- Problem Solving -DONTUSE
- Process Oriented Guided Inquiry Learning
- Quantitative Reasoning
- Question of the Day
- Role Playing
- Socratic Questioning
- Teaching with GIS
- Teaching with Technology
- Teaching with Visuals
Results 41 - 50 of 180 matches
Measuring voltage and current in a DC circuit part of Interactive Lectures:Examples
These exercises target student misconceptions about how to properly measure voltage and current in simple DC circuits by letting them investigate different meter arrangements without fear of damaging equipment. These activities also are designed to lead to other investigations about simple DC circuits.
Concept Questions for the Photoelectric Effect with Interactive Simulation part of Interactive Lectures:Examples
These are interactive lecture-demonstration questions probe student understanding of fundamental concepts in the photoelectric effect.
The Transformer: Simulation Lecture Demo part of Interactive Lectures:Examples
The activity presents an interactive lecture demonstration of the operation of a transformer using a simulation.
Motion Concepts: Displacement, velocity, & acceleration graphs part of Interactive Lectures:Examples
Students often struggle with motion concepts. These activities focus on the graphical representations of displacement, velocity, and acceleration given a number of situations of an object moving along the x-axis. ...
Body Measures: Exploring Distributions and Graphs Using Cooperative Learning part of Cooperative Learning:Examples
This lesson is intended as an early lesson in an introductory statistics course. The lesson introduces distributions, and the idea that distributions help us understand central tendencies and variability. Cooperative learning methods, real data, and structured interaction emphasize an active approach to teaching statistical concepts and thinking.
Understanding the standard deviation: What makes it larger or smaller? part of Cooperative Learning:Examples
Using cooperative learning methods, this activity helps students develop a better intuitive understanding of what is meant by variability in statistics.
Histogram Sorting Using Cooperative Learning part of Cooperative Learning:Examples
Intended as an early lesson in an introductory statistics course, this lesson uses cooperative learning methods to introduce distributions. Students develop awareness of the different versions of particular shapes (e.g., different types of skewed distributions, or different types of normal distributions), and that there is a difference between models (normal, uniform) and characteristics (skewness, symmetry, etc.).
The Standard Model: Using CERN output graphics to identify elementary particles part of Just in Time Teaching:Examples
After using the historical development of the Standard Model to develop introductory understanding, students link to OPAL and DELPHI data archives from CERN to identify and study the tracks from elementary particles.
Angular Momentum Experiment part of Just in Time Teaching:Examples
After using the historical development of concepts of conserved motion to develop introductory understanding, students are directed to a series of activities to gain a better understanding of momentum, conservation of momenta, angular momentum, and conservation of angular momenta.
Graph Predictions for Position, Velocity and Acceleration part of Just in Time Teaching:Examples
Graphical Just-in-Time-Teaching questions for use before classes in which students explore position, velocity and acceleration graphs.