Quiz about Sereika Magnetic Potential Energy

Question 1

Dylan puts two magnetic toy trains very close to each other on a track. What will happen next, and why?

Accepted Answer

The trains will move away from each other because the magnetic force will push the trains apart.

Answer

The trains will not move because the magnets are not touching.

Answer

The trains will move closer to each other because the magnetic force will pull the trains together.

Answer

The trains will move away from each other because the magnets are not touching.

Question 2

Dakota moves a magnetic toy train toward a magnet that cannot move. What happens to the potential energy in the system of magnets during the movement?

Accepted Answer

The potential energy increases because the train moves against the magnetic force.

Answer

The potential energy decreases because the train moves against the magnetic force.

Answer

The potential energy decreases because the train moves in the same direction as the magnetic force.

Answer

The potential energy does not change because the magnets in the system do not change.

Question 3

Pablo sets identical magnetic carts on two tracks. At the end of each track is a large magnet that cannot move. Pablo can move the carts one space to the left or one space to the right. Which movement will increase the potential energy in the system the most?

Accepted Answer

Moving the cart on Track 1 one space to the left (<).

Answer

Moving the cart on Track 1 one space to the right (>).

Answer

Moving the cart on Track 2 one space to the left (<).

Answer

All these movements will result in the same change in potential energy because they each move a cart the same distance.

Question 4

In a computer simulation, Noni moves a magnet (Magnet 1) away from another magnet (Magnet 2) that cannot move. Which statement accurately describes the change in potential energy?

Accepted Answer

The potential energy increases because Magnet 1 moves against the magnetic force.

Answer

The potential energy does not change because the magnets in the system do not change.

Answer

The potential energy decreases because Magnet 1 moves in the same direction as the magnetic force.

Answer

The potential energy decreases because Magnet 1 moves against the magnetic force.

Question 5

An engineer is investigating potential energy with two identical magnetic roller coaster cars on different sides of a center magnet that cannot move. For the experiment, the engineer will move one car one space. Which movement will result in the largest increase in potential energy?

Accepted Answer

Moving Car 1 car one space toward the center magnet.

Answer

Moving Car 2 one space toward the center magnet.

Answer

Moving Car 1 one space away from the center magnet.

Answer

All these movements will result in the same change in potential energy because they each move a car the same distance.

Question 6

Katrina moves a magnetic toy train toward a magnet that cannot move. What happens to the potential energy in the system of magnets during the move?

Accepted Answer

The potential energy increases because the train moves against the magnetic force.

Answer

The potential energy decreases because the train moves against the magnetic force.

Answer

The potential energy decreases because the train moves in the same direction as the magnetic force.

Answer

The potential energy does not change because the magnets in the system do not change.

Question 7

Peter sets identical magnetic carts on two tracks. At the end of each track is a large magnet that cannot move. Peter can move the carts one space to the left or one space to the right. Which movement will increase the potential energy in the system the most?

Accepted Answer

Moving the cart on Track 1 one space to the left (<).

Answer

Moving the cart on Track 1 one space to the right (>).

Answer

Moving the cart on Track 2 one space to the left (<).

Answer

All these movements will result in the same change in potential energy because they each move a magnetic cart the same distance.

Question 8

In a computer simulation, Ayesha moves a magnet (Magnet 2) away from another magnet (Magnet 1) that cannot move. Which statement accurately describes the change in potential energy?

Accepted Answer

The potential energy increases because Magnet 2 moves against the magnetic force.

Answer

The potential energy does not change because the magnets in the system do not change.

Answer

The potential energy decreases because Magnet 2 moves against the magnetic force.

Answer

The potential energy decreases because Magnet 2 moves in the same direction as the magnetic force.

Question 9

If you moved the magnet on the right away from the magnet on the left, what will happen to the potential energy?

Accepted Answer

the PE will decrease

Answer

<p>nothing</p>

Answer

the PE will increase

Question 10

If you move the magnet on the right away from the other magnet what happens to the potential energy?

Accepted Answer

the PE increases because you are moving the magnet against the magnetic field

Answer

the PE decreases because you are moving the magnet against the magnetic field

Answer

no need to move

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