Key Graphing Motion Test Review: Understanding Position-Time and Velocity-Time Graphs, Lecture notes of Computer Graphics and Animation

A review for students preparing for a motion test. It includes descriptions of position-time and velocity-time graphs, their corresponding motion scenarios, and key concepts such as velocity, acceleration, and changes in direction. The document also includes practice questions to help students prepare.

Typology: Lecture notes

2021/2022

Uploaded on 08/01/2022

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KEY GRAPHING MOTION TEST REVIEW KEY
THIS IS A REVIEW, NOT THE TEST. This along with your notes, UT quest, any labs, and other resources will help
you to do well on the test. The key will be posted to Edmodo. Test is Wednesday September, 22.
1. Describe the motion of the above Position-Time graphs:
A) Not moving, at the origin
B) Not moving, away from the origin in the positive direction
C) Moving in a positive constant velocity
D) Starts slow and then accelerates to a fast positive velocity
E) Starts fast and then negatively accelerates to a slow velocity
2. Describe the motion of the above Velocity-Time graphs:
A) Not moving
B) Moving at a constant positive velocity
C) Accelerating from rest at a constant acceleration
D) Gets faster at a changing positive acceleration
E) Gets slower at a changing negative acceleration
3. The slope of a position-time graph corresponds to the objects:
velocity
4. The slope of a velocity-time graph corresponds to the objects:
acceleration
5. What is Acceleration?
Change in velocity
6. What happens when acceleration is negative?
The object slows down or speeds up in the negative direction
7. If the average velocity of an object is the same for all time intervals, then the object moves at a ….
At a constant velocity
8. The area under the curve on a velocity-time graph equals the:
Displacement
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Download Key Graphing Motion Test Review: Understanding Position-Time and Velocity-Time Graphs and more Lecture notes Computer Graphics and Animation in PDF only on Docsity!

KEY GRAPHING MOTION TEST REVIEW KEY

THIS IS A REVIEW, NOT THE TEST. This along with your notes, UT quest, any labs, and other resources will help you to do well on the test. The key will be posted to Edmodo. Test is Wednesday September, 22.

  1. Describe the motion of the above Position-Time graphs: A) Not moving, at the origin B) Not moving, away from the origin in the positive direction C) Moving in a positive constant velocity D) Starts slow and then accelerates to a fast positive velocity E) Starts fast and then negatively accelerates to a slow velocity
  2. Describe the motion of the above Velocity-Time graphs: A) Not moving B) Moving at a constant positive velocity C) Accelerating from rest at a constant acceleration D) Gets faster at a changing positive acceleration E) Gets slower at a changing negative acceleration
  3. The slope of a position-time graph corresponds to the objects: velocity
  4. The slope of a velocity-time graph corresponds to the objects: acceleration
  5. What is Acceleration? Change in velocity
  6. What happens when acceleration is negative? The object slows down or speeds up in the negative direction
  7. If the average velocity of an object is the same for all time intervals, then the object moves at a …. At a constant velocity
  8. The area under the curve on a velocity-time graph equals the: Displacement

Velocity v. Time 0 1 2 3 4 5 0 4 8 12 Time (s)

Velocity

(m/s)

  1. An object starts out traveling at 5 m/s and continues at that speed for a little while. The object then gradually speeds up to 10 m/s. The object then slows down to a stop, stays still for several seconds, and suddenly starts moving in the opposite direction at 5 m/s. Which velocity time graph matches the description above? a. c. b. d. `
  2. Which of the following velocity-time graphs shows a change in direction?
  3. What is the acceleration between 0.0 s and 2.0 s? 2 m/s^2
  4. What is the acceleration between 2.0 s and 5.0 s? 0 m/s^2
  5. How fast (velocity) is he going at 4 s? 4 m/s
  6. How fast is he going at 12 s? 5 m/s