Explore the fundamental concepts of motion in physics, including position, displacement, time, speed, and velocity. Delve into modeling techniques using motion diagrams and vectors, laying the groundwork for understanding uniform motion and graphical representations in future discussions. Learn to differentiate between distance traveled and displacement, analyze vector addition, and apply these principles to real-world scenarios involving cars, runners, and even ants. This lecture serves as a crucial foundation for comprehending more complex physics concepts, despite the instructor's admitted fatigue during recording.
Overview
Syllabus
Intro
MODELING MOTION
THE PARTICLE MODEL
TIME INTERVALS
SPEED
VELOCITY
DISPLACEMENT VECTORS
VECTOR ADDITION
Both cars have the same time interval between photos. Which car, A or B, is going slower?
Two runners jog along a track. The positions are shown at 1 s intervals. Which runner is moving faster?
An ant zig-zags back and forth on a picnic table as shown. The ant's distance traveled and displacement are
Given vectors P and Q, what is P+Q?
Taught by
Spahn's Science Lectures
