2_D Motion quiz

1

Two physics teachers stand at the window and throw water balloons straight out horizontally at their tardy students. Teacher A can throw twice as hard as Teacher B, but the two are the exact same height. Whose water balloon will hit the ground first?

Teacher A

They will hit at the same time.

Not enough information is given.

Teacher B

1

Two physics teachers stand at the window and throw water balloons straight out horizontally at their tardy students. Teacher A can throw twice as hard as Teacher B, but the two are the exact same height. Which would be the evidence for whose water balloon will hit the ground first?

Teacher A's balloon is falling faster than Teacher B's balloon.

Both balloons are falling at the same speed vertically.

Teacher B's balloon is falling faster than Teacher A's balloon.

Not enough information is given.

1

Two physics teachers stand at the window and throw water balloons straight out horizontally at their tardy students. Teacher A can throw twice as hard as Teacher B, but the two are the exact same height. Which would be the reasoning for your evidence for whose water balloon will hit the ground first?

Both balloon's motions effect each other so they are dependent on each other.

Both balloons travel the same distance in the same time as their vertical and horizontal motions are independent of each other.

Each balloon travels a different distance in the same time.

Not enough information is given.

1

A person walking on a moving walkway in the airport has their backpack thrown at them by someone standing on the ground at the end of the walkway as the move towards them. The person catching the bag observes it moving at _______________ than the person off the walkway observes.

same velocity

higher velocity

lower velocity

1

A person walking on a moving walkway in the airport has their backpack thrown at them by someone standing on the ground at the end of the walkway as they move towards them. Which would be the evidence for how the person catching the bag observes its motion?

The person on the way observes the bag reach them with only the bag's speed.

The person on the walkway observes the bag reach them with the combination of their speed and the bag's speed.

Not enough information is given.

The person on the walkway observes the bag reach them with the difference between their speed and the bag's speed.

1

A person walking on a moving walkway in the airport has their backpack thrown at them by someone standing on the ground at the end of the walkway as they move towards them. Which would be the reasoning for the evidence for how the person catching the bag observes its motion?

Not enough information is given.

The person on the walkway observes the bag moving away from them in a world moving towards them.

The person on the walkway observes the bag moving away from them in a world moving away from them.

The person on the walkway observes the bag moving towards them in a world moving towards them.

3

A person rowing a boat is capable of maintaining a speed of 3.2 m/s in water. They row their boat in a river with a current of 2.4 m/s relative to the shore.
If they point their boat downstream, what is their velocity relative to the shore? (nearest tenth)

3

A person rowing a boat is capable of maintaining a speed of 3.2 m/s in water. They row their boat in a river with a current of 2.4 m/s relative to the shore.
If they point their boat upstream, what is their velocity relative to the shore? (nearest tenth)

1

A person rowing a boat is capable of maintaining a speed of 3.2 m/s in water. They row their boat across a river with a current of 2.4 m/s relative to the shore.
Which equation would you use to find the magnitude of the Velocity reative to the shore?

3

A person rowing a boat is capable of maintaining a speed of 3.2 m/s in water. They row their boat east across a river with a current of 2.4 m/s north relative to the shore.
Find the magnitude of the velocity relative to the shore to nearest tenth.

2

A person rowing a boat is capable of maintaining a speed of 3.2 m/s in water. They row their boat east across a river with a current of 2.4 m/s North relative to the shore.
Find the direction of the velocity relative to the shore for to nearest tenth.

1

Mr. Dewey’s cat Yuki loves to catch toys that he throws in the air. He throws a toy mouse horizontally across the living room with an initial velocity of 9.43 m/s from a height of 1.97 m.
What are the givens?

1

Mr. Dewey’s cat Yuki loves to catch toys that he throws in the air. He throws a toy mouse horizontally across the living room with an initial velocity of 9.43 m/s from a height of 1.97 m. If she starts at Mr. Dewey’s feet, how far must Yuki run in order to catch the mouse just before it hits the ground?
What is the unknown?

a

1

Mr. Dewey’s cat Yuki loves to catch toys that he throws in the air. He throws a toy mouse horizontally across the living room with an initial velocity of 9.43 m/s from a height of 1.97 m. If she starts at Mr. Dewey’s feet, how far must Yuki run in order to catch the mouse just before it hits the ground?
What is the equation you would use to find time?

2

Mr. Dewey’s cat Yuki loves to catch toys that he throws in the air. He throws a toy mouse horizontally across the living room with an initial velocity of 9.43 m/s from a height of 1.97 m.
What is the time in the air for Yuki's toy? (nearest hundreth)

1

Mr. Dewey’s cat Yuki loves to catch toys that he throws in the air. He throws a toy mouse horizontally across the living room with an initial velocity of 9.43 m/s from a height of 1.97 m.
What is the equation you would use to find how far Yuki must run to catch the toy?

2

Mr. Dewey’s cat Yuki loves to catch toys that he throws in the air. He throws a toy mouse horizontally across the living room with an initial velocity of 9.43 m/s from a height of 1.97 m.
If she starts at Mr. Dewey’s feet, how far must Yuki run in order to catch the mouse just before it hits the ground? (nearest hundreth)

1

What is the equation you would use to find

3

Mr. Dewey’s cat Yuki loves to catch toys that he throws in the air. He throws a toy mouse horizontally across the living room with an initial velocity of 9.43 m/s from a height of 1.97 m.
Find
to nearest hundreth.

3

Mr. Dewey’s cat Yuki loves to catch toys that he throws in the air. He throws a toy mouse horizontally across the living room with an initial velocity of 9.43 m/s from a height of 1.97 m.
Find
to nearest hundreth.

1

Mr. Dewey’s cat Yuki loves to catch toys that he throws in the air. He throws a toy mouse horizontally across the living room with an initial velocity of 9.43 m/s from a height of 1.97 m.
Which equation would you use to find the magnitude of the Velocity just before the mouse is caught?

2

Mr. Dewey’s cat Yuki loves to catch toys that he throws in the air. He throws a toy mouse horizontally across the living room with an initial velocity of 9.43 m/s from a height of 1.97 m.
Find the magnitude of the final velocity of the mouse when Yuki catches it. (nearest hundreth)

2

Mr. Dewey’s cat Yuki loves to catch toys that he throws in the air. He throws a toy mouse horizontally across the living room with an initial velocity of 9.43 m/s from a height of 1.97 m.
Find the direction for the final velocity of the mouse when Yuki catches it. (nearest hundreth)

2_D Motion quiz

Two physics teachers stand at the window and throw water balloons straight out horizontally at their tardy students. Teacher A can throw twice as hard as Teacher B, but the two are the exact same height. Whose water balloon will hit the ground first?

Two physics teachers stand at the window and throw water balloons straight out horizontally at their tardy students. Teacher A can throw twice as hard as Teacher B, but the two are the exact same height. Which would be the evidence for whose water balloon will hit the ground first?

A person walking on a moving walkway in the airport has their backpack thrown at them by someone standing on the ground at the end of the walkway as the move towards them. The person catching the bag observes it moving at _______________ than the person off the walkway observes.

A person walking on a moving walkway in the airport has their backpack thrown at them by someone standing on the ground at the end of the walkway as they move towards them. Which would be the evidence for how the person catching the bag observes its motion?

A person walking on a moving walkway in the airport has their backpack thrown at them by someone standing on the ground at the end of the walkway as they move towards them. Which would be the reasoning for the evidence for how the person catching the bag observes its motion?

A person rowing a boat is capable of maintaining a speed of 3.2 m/s in water. They row their boat in a river with a current of 2.4 m/s relative to the shore.If they point their boat downstream, what is their velocity relative to the shore? (nearest tenth)

A person rowing a boat is capable of maintaining a speed of 3.2 m/s in water. They row their boat in a river with a current of 2.4 m/s relative to the shore.If they point their boat upstream, what is their velocity relative to the shore? (nearest tenth)

A person rowing a boat is capable of maintaining a speed of 3.2 m/s in water. They row their boat across a river with a current of 2.4 m/s relative to the shore.Which equation would you use to find the magnitude of the Velocity reative to the shore?

A person rowing a boat is capable of maintaining a speed of 3.2 m/s in water. They row their boat east across a river with a current of 2.4 m/s north relative to the shore.Find the magnitude of the velocity relative to the shore to nearest tenth.

A person rowing a boat is capable of maintaining a speed of 3.2 m/s in water. They row their boat east across a river with a current of 2.4 m/s North relative to the shore.Find the direction of the velocity relative to the shore for to nearest tenth.

Mr. Dewey’s cat Yuki loves to catch toys that he throws in the air. He throws a toy mouse horizontally across the living room with an initial velocity of 9.43 m/s from a height of 1.97 m.What are the givens?

Mr. Dewey’s cat Yuki loves to catch toys that he throws in the air. He throws a toy mouse horizontally across the living room with an initial velocity of 9.43 m/s from a height of 1.97 m.What is the time in the air for Yuki's toy? (nearest hundreth)

Mr. Dewey’s cat Yuki loves to catch toys that he throws in the air. He throws a toy mouse horizontally across the living room with an initial velocity of 9.43 m/s from a height of 1.97 m.What is the equation you would use to find how far Yuki must run to catch the toy?

What is the equation you would use to find

Mr. Dewey’s cat Yuki loves to catch toys that he throws in the air. He throws a toy mouse horizontally across the living room with an initial velocity of 9.43 m/s from a height of 1.97 m. Findto nearest hundreth.

Mr. Dewey’s cat Yuki loves to catch toys that he throws in the air. He throws a toy mouse horizontally across the living room with an initial velocity of 9.43 m/s from a height of 1.97 m.Findto nearest hundreth.

Mr. Dewey’s cat Yuki loves to catch toys that he throws in the air. He throws a toy mouse horizontally across the living room with an initial velocity of 9.43 m/s from a height of 1.97 m.Which equation would you use to find the magnitude of the Velocity just before the mouse is caught?

Mr. Dewey’s cat Yuki loves to catch toys that he throws in the air. He throws a toy mouse horizontally across the living room with an initial velocity of 9.43 m/s from a height of 1.97 m.Find the magnitude of the final velocity of the mouse when Yuki catches it. (nearest hundreth)

Mr. Dewey’s cat Yuki loves to catch toys that he throws in the air. He throws a toy mouse horizontally across the living room with an initial velocity of 9.43 m/s from a height of 1.97 m.Find the direction for the final velocity of the mouse when Yuki catches it. (nearest hundreth)

Two physics teachers stand at the window and throw water balloons straight out horizontally at their tardy students. Teacher A can throw twice as hard as Teacher B, but the two are the exact same height. Whose water balloon will hit the ground first?

Two physics teachers stand at the window and throw water balloons straight out horizontally at their tardy students. Teacher A can throw twice as hard as Teacher B, but the two are the exact same height. Which would be the evidence for whose water balloon will hit the ground first?

A person walking on a moving walkway in the airport has their backpack thrown at them by someone standing on the ground at the end of the walkway as the move towards them. The person catching the bag observes it moving at _______________ than the person off the walkway observes.

A person walking on a moving walkway in the airport has their backpack thrown at them by someone standing on the ground at the end of the walkway as they move towards them. Which would be the evidence for how the person catching the bag observes its motion?

A person walking on a moving walkway in the airport has their backpack thrown at them by someone standing on the ground at the end of the walkway as they move towards them. Which would be the reasoning for the evidence for how the person catching the bag observes its motion?

A person rowing a boat is capable of maintaining a speed of 3.2 m/s in water. They row their boat in a river with a current of 2.4 m/s relative to the shore.If they point their boat downstream, what is their velocity relative to the shore? (nearest tenth)

A person rowing a boat is capable of maintaining a speed of 3.2 m/s in water. They row their boat in a river with a current of 2.4 m/s relative to the shore.If they point their boat upstream, what is their velocity relative to the shore? (nearest tenth)

A person rowing a boat is capable of maintaining a speed of 3.2 m/s in water. They row their boat across a river with a current of 2.4 m/s relative to the shore.Which equation would you use to find the magnitude of the Velocity reative to the shore?

A person rowing a boat is capable of maintaining a speed of 3.2 m/s in water. They row their boat east across a river with a current of 2.4 m/s north relative to the shore.Find the magnitude of the velocity relative to the shore to nearest tenth.

A person rowing a boat is capable of maintaining a speed of 3.2 m/s in water. They row their boat east across a river with a current of 2.4 m/s North relative to the shore.Find the direction of the velocity relative to the shore for to nearest tenth.

Mr. Dewey’s cat Yuki loves to catch toys that he throws in the air. He throws a toy mouse horizontally across the living room with an initial velocity of 9.43 m/s from a height of 1.97 m.What are the givens?

Mr. Dewey’s cat Yuki loves to catch toys that he throws in the air. He throws a toy mouse horizontally across the living room with an initial velocity of 9.43 m/s from a height of 1.97 m.What is the time in the air for Yuki's toy? (nearest hundreth)

Mr. Dewey’s cat Yuki loves to catch toys that he throws in the air. He throws a toy mouse horizontally across the living room with an initial velocity of 9.43 m/s from a height of 1.97 m.What is the equation you would use to find how far Yuki must run to catch the toy?

What is the equation you would use to find

Mr. Dewey’s cat Yuki loves to catch toys that he throws in the air. He throws a toy mouse horizontally across the living room with an initial velocity of 9.43 m/s from a height of 1.97 m. Findto nearest hundreth.

Mr. Dewey’s cat Yuki loves to catch toys that he throws in the air. He throws a toy mouse horizontally across the living room with an initial velocity of 9.43 m/s from a height of 1.97 m.Findto nearest hundreth.

Mr. Dewey’s cat Yuki loves to catch toys that he throws in the air. He throws a toy mouse horizontally across the living room with an initial velocity of 9.43 m/s from a height of 1.97 m.Which equation would you use to find the magnitude of the Velocity just before the mouse is caught?

Mr. Dewey’s cat Yuki loves to catch toys that he throws in the air. He throws a toy mouse horizontally across the living room with an initial velocity of 9.43 m/s from a height of 1.97 m.Find the magnitude of the final velocity of the mouse when Yuki catches it. (nearest hundreth)

Mr. Dewey’s cat Yuki loves to catch toys that he throws in the air. He throws a toy mouse horizontally across the living room with an initial velocity of 9.43 m/s from a height of 1.97 m.Find the direction for the final velocity of the mouse when Yuki catches it. (nearest hundreth)

A person rowing a boat is capable of maintaining a speed of 3.2 m/s in water. They row their boat in a river with a current of 2.4 m/s relative to the shore.
If they point their boat downstream, what is their velocity relative to the shore? (nearest tenth)

A person rowing a boat is capable of maintaining a speed of 3.2 m/s in water. They row their boat in a river with a current of 2.4 m/s relative to the shore.
If they point their boat upstream, what is their velocity relative to the shore? (nearest tenth)

A person rowing a boat is capable of maintaining a speed of 3.2 m/s in water. They row their boat across a river with a current of 2.4 m/s relative to the shore.
Which equation would you use to find the magnitude of the Velocity reative to the shore?

A person rowing a boat is capable of maintaining a speed of 3.2 m/s in water. They row their boat east across a river with a current of 2.4 m/s north relative to the shore.
Find the magnitude of the velocity relative to the shore to nearest tenth.

A person rowing a boat is capable of maintaining a speed of 3.2 m/s in water. They row their boat east across a river with a current of 2.4 m/s North relative to the shore.
Find the direction of the velocity relative to the shore for to nearest tenth.

Mr. Dewey’s cat Yuki loves to catch toys that he throws in the air. He throws a toy mouse horizontally across the living room with an initial velocity of 9.43 m/s from a height of 1.97 m.
What are the givens?

Mr. Dewey’s cat Yuki loves to catch toys that he throws in the air. He throws a toy mouse horizontally across the living room with an initial velocity of 9.43 m/s from a height of 1.97 m.
What is the time in the air for Yuki's toy? (nearest hundreth)

Mr. Dewey’s cat Yuki loves to catch toys that he throws in the air. He throws a toy mouse horizontally across the living room with an initial velocity of 9.43 m/s from a height of 1.97 m.
What is the equation you would use to find how far Yuki must run to catch the toy?

Mr. Dewey’s cat Yuki loves to catch toys that he throws in the air. He throws a toy mouse horizontally across the living room with an initial velocity of 9.43 m/s from a height of 1.97 m.
Find
to nearest hundreth.

Mr. Dewey’s cat Yuki loves to catch toys that he throws in the air. He throws a toy mouse horizontally across the living room with an initial velocity of 9.43 m/s from a height of 1.97 m.
Find
to nearest hundreth.

Mr. Dewey’s cat Yuki loves to catch toys that he throws in the air. He throws a toy mouse horizontally across the living room with an initial velocity of 9.43 m/s from a height of 1.97 m.
Which equation would you use to find the magnitude of the Velocity just before the mouse is caught?

Mr. Dewey’s cat Yuki loves to catch toys that he throws in the air. He throws a toy mouse horizontally across the living room with an initial velocity of 9.43 m/s from a height of 1.97 m.
Find the magnitude of the final velocity of the mouse when Yuki catches it. (nearest hundreth)

Mr. Dewey’s cat Yuki loves to catch toys that he throws in the air. He throws a toy mouse horizontally across the living room with an initial velocity of 9.43 m/s from a height of 1.97 m.
Find the direction for the final velocity of the mouse when Yuki catches it. (nearest hundreth)

A person rowing a boat is capable of maintaining a speed of 3.2 m/s in water. They row their boat in a river with a current of 2.4 m/s relative to the shore.
If they point their boat downstream, what is their velocity relative to the shore? (nearest tenth)

A person rowing a boat is capable of maintaining a speed of 3.2 m/s in water. They row their boat in a river with a current of 2.4 m/s relative to the shore.
If they point their boat upstream, what is their velocity relative to the shore? (nearest tenth)

A person rowing a boat is capable of maintaining a speed of 3.2 m/s in water. They row their boat across a river with a current of 2.4 m/s relative to the shore.
Which equation would you use to find the magnitude of the Velocity reative to the shore?

A person rowing a boat is capable of maintaining a speed of 3.2 m/s in water. They row their boat east across a river with a current of 2.4 m/s north relative to the shore.
Find the magnitude of the velocity relative to the shore to nearest tenth.

A person rowing a boat is capable of maintaining a speed of 3.2 m/s in water. They row their boat east across a river with a current of 2.4 m/s North relative to the shore.
Find the direction of the velocity relative to the shore for to nearest tenth.

Mr. Dewey’s cat Yuki loves to catch toys that he throws in the air. He throws a toy mouse horizontally across the living room with an initial velocity of 9.43 m/s from a height of 1.97 m.
What are the givens?

Mr. Dewey’s cat Yuki loves to catch toys that he throws in the air. He throws a toy mouse horizontally across the living room with an initial velocity of 9.43 m/s from a height of 1.97 m.
What is the time in the air for Yuki's toy? (nearest hundreth)

Mr. Dewey’s cat Yuki loves to catch toys that he throws in the air. He throws a toy mouse horizontally across the living room with an initial velocity of 9.43 m/s from a height of 1.97 m.
What is the equation you would use to find how far Yuki must run to catch the toy?

Mr. Dewey’s cat Yuki loves to catch toys that he throws in the air. He throws a toy mouse horizontally across the living room with an initial velocity of 9.43 m/s from a height of 1.97 m.
Find
to nearest hundreth.

Mr. Dewey’s cat Yuki loves to catch toys that he throws in the air. He throws a toy mouse horizontally across the living room with an initial velocity of 9.43 m/s from a height of 1.97 m.
Find
to nearest hundreth.

Mr. Dewey’s cat Yuki loves to catch toys that he throws in the air. He throws a toy mouse horizontally across the living room with an initial velocity of 9.43 m/s from a height of 1.97 m.
Which equation would you use to find the magnitude of the Velocity just before the mouse is caught?

Mr. Dewey’s cat Yuki loves to catch toys that he throws in the air. He throws a toy mouse horizontally across the living room with an initial velocity of 9.43 m/s from a height of 1.97 m.
Find the magnitude of the final velocity of the mouse when Yuki catches it. (nearest hundreth)

Mr. Dewey’s cat Yuki loves to catch toys that he throws in the air. He throws a toy mouse horizontally across the living room with an initial velocity of 9.43 m/s from a height of 1.97 m.
Find the direction for the final velocity of the mouse when Yuki catches it. (nearest hundreth)