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Test your basic knowledge |
AP Physics - Kinematics Vocab
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Study First
Subjects
:
science
,
ap
,
physics
Instructions:
Answer 14 questions in 15 minutes.
If you are not ready to take this test, you can
study here
.
Match each statement with the correct term.
Don't refresh. All questions and answers are randomly picked and ordered every time you load a test.
This is a study tool. The 3 wrong answers for each question are randomly chosen from answers to other questions. So, you might find at times the answers obvious, but you will see it re-enforces your understanding as you take the test each time.
1. Average speed
If acceleration is present (Question contains terms such as: starts from rest - final velocity of - accelerates - comes to rest - etc.) - then you must use the three Kinematic equations
The total distance divided by the total time for the entire trip.
A scalar quantity (no direction specified) that shows the rate that distance d is covered.
A vector quantity consisting of magnitude and direction. Displacement x divided by time.
2. Distance
A scalar quantity (no direction specified) that shows the rate that distance d is covered.
Shortest distance between the beginning and ending point in the problem. Is a vector quantity (has direction)
If the same speed is maintained over the entire trip. Constant speed/velocity means no acceleration.
Total distance traveled from start to finish - Is a scalar quantity (no direction)
3. Instantaneous speed
A scalar quantity (no direction specified) that shows the rate that distance d is covered.
The total distance divided by the total time for the entire trip.
The speed at an instant in time. Right now. Your speedometer reading when you glance it at.
A vector quantity consisting of magnitude and direction. Displacement x divided by time.
4. The only time the average velocity equation can be used
Total distance traveled from start to finish - Is a scalar quantity (no direction)
When there is no acceleration
A scalar quantity (no direction specified) that shows the rate that distance d is covered.
Shortest distance between the beginning and ending point in the problem. Is a vector quantity (has direction)
5. Key words or hints that a kinematic equation must be used
If acceleration is present (Question contains terms such as: starts from rest - final velocity of - accelerates - comes to rest - etc.) - then you must use the three Kinematic equations
The speed at an instant in time. Right now. Your speedometer reading when you glance it at.
A scalar quantity (no direction specified) that shows the rate that distance d is covered.
Speeding up - slowing down or changing direction)
6. Kinematic
A vector quantity consisting of magnitude and direction. Displacement x divided by time.
The study of motion in one dimension
The total distance divided by the total time for the entire trip.
A scalar quantity (no direction specified) that shows the rate that distance d is covered.
7. Displacement
Shortest distance between the beginning and ending point in the problem. Is a vector quantity (has direction)
An example of motion in 2 dimensions (both x and y simultaneously)
When there is no acceleration
A scalar quantity (no direction specified) that shows the rate that distance d is covered.
8. Projectile Motion
An example of motion in 2 dimensions (both x and y simultaneously)
Speeding up - slowing down or changing direction)
The total distance divided by the total time for the entire trip.
Start a problem by asking 'What is the object doing?' - 'What is causing it to do that?' - What direction is it moving in (if two find x and y components)? Is it moving at constant v (this includes v = 0)? Is it accelerating? Force? Energy change? Se
9. Kinematics Problem Solving Strategy
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10. Acceleration
When there is no acceleration
An example of motion in 2 dimensions (both x and y simultaneously)
A scalar quantity (no direction specified) that shows the rate that distance d is covered.
Speeding up - slowing down or changing direction)
11. Velocity
A scalar quantity (no direction specified) that shows the rate that distance d is covered.
A vector quantity consisting of magnitude and direction. Displacement x divided by time.
Start a problem by asking 'What is the object doing?' - 'What is causing it to do that?' - What direction is it moving in (if two find x and y components)? Is it moving at constant v (this includes v = 0)? Is it accelerating? Force? Energy change? Se
The total distance divided by the total time for the entire trip.
12. How to calculate slope on a straight line graph
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13. Constant speed or velocity
If the same speed is maintained over the entire trip. Constant speed/velocity means no acceleration.
Total distance traveled from start to finish - Is a scalar quantity (no direction)
The slope is the change in y divided by the change in x. (Otherwise known as 'the rise over the run'.)
A vector quantity consisting of magnitude and direction. Displacement x divided by time.
14. Speed
A scalar quantity (no direction specified) that shows the rate that distance d is covered.
A vector quantity consisting of magnitude and direction. Displacement x divided by time.
If acceleration is present (Question contains terms such as: starts from rest - final velocity of - accelerates - comes to rest - etc.) - then you must use the three Kinematic equations
Start a problem by asking 'What is the object doing?' - 'What is causing it to do that?' - What direction is it moving in (if two find x and y components)? Is it moving at constant v (this includes v = 0)? Is it accelerating? Force? Energy change? Se