Angular vs. Tangential Quantities

The two horses are running side-by-side around a circular track.

Which horse has the slowest angular speed?
1. Inside
2. Outside
3. Neither (or both)
The two horses are running side-by-side around a circular track.

Which horse has the fastest tangential speed?
1. Inside
2. Outside
3. Neither (or both)
The two horses are running side-by-side around a circular track.

In the same amount of time, which horse travels the longest arc length?
1. Inside
2. Outside
3. Neither (or both)
The two horses are running side-by-side around a circular track.

In the same amount of time, which horse travels the shortest angular displacement?
1. Inside
2. Outside
3. Neither (or both)
The two horses are running side-by-side around a circular track.

When they started the race, which horse had the slowest tangential acceleration?
1. Inside
2. Outside
3. Neither (or both)
The two horses are running side-by-side around a circular track.

When they started the race, which horse had the fastest angular acceleration?
1. Inside
2. Outside
3. Neither (or both)
Two points on a turning circle.

Which point has the fastest angular speed?
1. A
2. B
3. Neither (or Both)
Two points on a turning circle.

Which point has the slowest tangential speed?
1. A
2. B
3. Neither (or Both)
Two points on a turning circle.

In the same amount of time, which point travels the shortest arc length?
1. A
2. B
3. Neither (or Both)
Two points on a turning circle.

In the same amount of time, which point travels the longest angular displacement?
1. A
2. B
3. Neither (or Both)
Two points on a turning circle.

When the circle slows to a stop, which point will have the slowest angular acceleration?
1. A
2. B
3. Neither (or Both)
Two points on a turning circle.

When the circle slows to a stop, which point will have the fastest tangential acceleration?
1. A
2. B
3. Neither (or Both)
Two cars staying side-by-side on a race track.

Which car has the slowest angular speed?
1. Inside
2. Outside
3. Neither (or Both)
Two cars staying side-by-side on a race track.

Which car has the fastest tangential speed?
1. Inside
2. Outside
3. Neither (or Both)
Two cars staying side-by-side on a race track.

In the same amount of time, which car travels the longest arc length?
1. Inside
2. Outside
3. Neither (or Both)
Two cars staying side-by-side on a race track.

In the same amount of time, which car travels the shortest angular displacement?
1. Inside
2. Outside
3. Neither (or Both)
Two cars staying side-by-side on a race track.

When they started the race, which car had the slowest tangential acceleration?
1. Inside
2. Outside
3. Neither (or Both)
Two cars staying side-by-side on a race track.

When they started the race, which car had the slowest angular acceleration?
1. Inside
2. Outside
3. Neither (or Both)
The two girls stay side-by-side around the track.

Which runner has the fastest angular speed?
1. Inside
2. Outside
3. Neither (or Both)
The two girls stay side-by-side around the track.

Which runner has the slowest tangential speed?
1. Inside
2. Outside
3. Neither (or Both)
The two girls stay side-by-side around the track.

In the same amount of time, which runner travels the shortest arc length?
1. Inside
2. Outside
3. Neither (or Both)
The two girls stay side-by-side around the track.

In the same amount of time, which runner travels the longest angular displacement?
1. Inside
2. Outside
3. Neither (or Both)
The two girls stay side-by-side around the track.

When they started the race, which runner had the fastest tangential acceleration?
1. Inside
2. Outside
3. Neither (or Both)
The two girls stay side-by-side around the track.

When they finish the race, which runner will have the fastest angular acceleration?
1. Inside
2. Outside
3. Neither (or Both)