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# you are given a material which produces no initial magnetic field when in free space. when it is placed in a region of uniform magnetic field, the material produces an additional internal magnetic field parallel to the original field. however, this induced magnetic field disappears when the external field is removed. what type of magnetism does this material exhibit?

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### James

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get you are given a material which produces no initial magnetic field when in free space. when it is placed in a region of uniform magnetic field, the material produces an additional internal magnetic field parallel to the original field. however, this induced magnetic field disappears when the external field is removed. what type of magnetism does this material exhibit? from EN Bilgi.

## You are given a material which produces no initial magnetic field when in free space. When it is

You are given a material which produces no initial magnetic field when in free space. When it is placed in a r… Get the answers you need, now!

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You are given a material which produces no initial magnetic field when in free space. When it is placed in a region of uniform magnetic field, the material produces an additional internal magnetic field parallel to the original field. However, this induced magnetic field disappears when the external field is removed. What type of magnetism does this material exhibit

0

The type of magnetism that the material should be exhibited should be paramagnetic

### What is paramagnetic?

The paramagnetic material contains various features like it does not contain magnetic properties that should be placed in a magnetic field that should be in an external way. Also, at the same time, it gained or lose the magnetic property when the external field should be eliminated.

Therefore, The type of magnetism that the material should be exhibited should be paramagnetic

1

This material exhibits paramagnetism.

Explanation:

A paramagnetic material has these features: It doesn’t have any magnetic properties when placed in an external magnetic field, it gains and then loses the magnetic property as the external field is removed.

Such materials have magnetic moments oriented in random directions, thus making the net magnetic moment, zero. But when placed in an external field, they do possess a net magnetic moment. When the magnetic field is removed, they lose the magnetic property.

Thus, the material which produces no initial magnetic field when placed in a uniform magnetic field produces an additional internal magnetic field parallel to the original field. Also, it loses the magnetic properties as soon as the external magnetic field is removed. Then, the magnetism the material exhibits is paramagnetic.

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## Solved You are given a material which produces no initial

Answer to Solved You are given a material which produces no initial

## Question: You Are Given A Material Which Produces No Initial Magnetic Field When In Free Space. When It Is Placed In A Region Of Uniform Magnetic Field, The Material Produces An Additional Internal Magnetic Field Parallel To The Original Field. However, This Induced Magnetic Field Disappears When The External Field Is Removed. What Type Of Magnetism Does This Material

You are given a material which produces no initial magnetic field when in free space. When it is placed in a region of uniform magnetic field, the material produces an additional internal magnetic field parallel to the original field. However, this induced magnetic field disappears when the external field is removed.

What type of magnetism does this material exhibit?

diamagnetism

Once again, you are given an unknown material that initially generates no magnetic field. When this material is placed in a magnetic field, it produces a strong internal magnetic field, parallel to the external magnetic field. This field is found to remain even after the external magnetic field is removed.

Your material is which of the following?

What type of magnetism is characteristic of most materials?

100%

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## HWK 7 Physics Flashcards

Start studying HWK 7 Physics. Learn vocabulary, terms, and more with flashcards, games, and other study tools.

## HWK 7 Physics

3. At twice the distance, the magnitude of the field is B/2.

Click card to see definition 👆

The magnitude of the magnetic field at a certain distance from a long, straight conductor is represented by B. What is the magnitude of the magnetic field at twice the distance from the conductor?

1. At twice the distance, the magnitude of the field is 2B.

2. At twice the distance, the magnitude of the field is B/4.

3. At twice the distance, the magnitude of the field is B/2.

4. At twice the distance, the magnitude of the field remains equal to B.

At twice the distance, the magnitude of the field is 4B.

Click again to see term 👆

2, 3, 4

Click card to see definition 👆

Which of the following statements are true for magnetic force acting on a current-carrying wire in a uniform magnetic field?

1. The magnetic force on the current-carrying wire is strongest when the current is parallel to the magnetic field lines.

2. The magnetic force on the current-carrying wire is strongest when the current is perpendicular to the magnetic field lines.

3. The direction of the magnetic force acting on a current-carrying wire in a uniform magnetic field is perpendicular to the direction of the current.

4. The direction of the magnetic force acting on a current-carrying wire in a uniform magnetic field is perpendicular to the direction of the field.

Click again to see term 👆

1/5 Created by tracytran0107

### Terms in this set (5)

3. At twice the distance, the magnitude of the field is B/2.

The magnitude of the magnetic field at a certain distance from a long, straight conductor is represented by B. What is the magnitude of the magnetic field at twice the distance from the conductor?

1. At twice the distance, the magnitude of the field is 2B.

2. At twice the distance, the magnitude of the field is B/4.

3. At twice the distance, the magnitude of the field is B/2.

4. At twice the distance, the magnitude of the field remains equal to B.

At twice the distance, the magnitude of the field is 4B.

2, 3, 4

Which of the following statements are true for magnetic force acting on a current-carrying wire in a uniform magnetic field?

1. The magnetic force on the current-carrying wire is strongest when the current is parallel to the magnetic field lines.

2. The magnetic force on the current-carrying wire is strongest when the current is perpendicular to the magnetic field lines.

3. The direction of the magnetic force acting on a current-carrying wire in a uniform magnetic field is perpendicular to the direction of the current.

4. The direction of the magnetic force acting on a current-carrying wire in a uniform magnetic field is perpendicular to the direction of the field.

2. paramagnetism

You are given a material which produces no initial magnetic field when in free space. When it is placed in a region of uniform magnetic field, the material produces an additional internal magnetic field parallel to the original field. However, this induced magnetic field disappears when the external field is removed.

What type of magnetism does this material exhibit?

1. diamagnetism 2. paramagnetism 3. ferromagnetism 3. ferromagnetism

Once again, you are given an unknown material that initially generates no magnetic field. When this material is placed in a magnetic field, it produces a strong internal magnetic field, parallel to the external magnetic field. This field is found to remain even after the external magnetic field is removed.

Your material is which of the following?

1. diamagnetism 2. paramagnetism 3. ferromagnetism 1. diamagnetism

What type of magnetism is characteristic of most materials?

1. diamagnetism 2. paramagnetism 3. ferromagnetism

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A box containing some stones is resting on a rough inclined surface. Which of the following actions will definitely not make the box start moving down the incline? Multiple answers could be correct. (a) Push the box in the direction that is down the incline. (b) Remove the box, polish the inclined surface with sandpaper, and put the box back. (c) Increase the angle of the incline. (d) Take some stones out of the box. (e) Put more stones into the box.

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James 10 month ago

Guys, does anyone know the answer?