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Physics

Grade-10

Easy

Question

The induced current in the coil placed in a magnetic field is maximum when the angle between the direction of motion of wire and the direction of the magnetic field is:

45^o
60^o
90^o
180^o

hint Hint:

When the direction of motion of the coil is at right angles(90 degrees) to the magnetic field, the induced current is the maximum.

The correct answer is: 90^o

The induced current in the coil placed in a magnetic field is maximum when the angle between the direction of motion of the wire and the direction of the magnetic field is: 90⁰

The induced current is maximum when the coil is kept perpendicular to the wire.

The angle between the axis of the magnet and the coil is 90 degrees when it lies perpendicular to each other.

This causes maximum current flow in the coil.

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When the plane of the armature of an AC generator is parallel to the field, in which is it rotating?

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Choose the correct option by reading the following statements: Assertion: The induced emf in a conducting loop of wire will be nonzero when it rotates in a uniform magnetic field. Reason: The emf is induced due to a change in magnetic flux.

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An induced emf is induced in the circuit whenever the magnetic flux is related to a coil change:
I. for short, the e.m.f. lasts
II. for an extended period of time
III. for as long as the flux is changing
The correct statement(s) is/are

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I. for short, the e.m.f. lasts
II. for an extended period of time
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The correct statement(s) is/are

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Read the following statements and choose the correct option.
Assertion: The figure shows:

a metallic conductor moving in a magnetic field. The induced emf across its ends is non zero.
Reason: The induced emf across the ends of a conductor is given by Blv sinθ.

Read the following statements and choose the correct option.
Assertion: The figure shows:

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Reason: The induced emf across the ends of a conductor is given by Blv sinθ.

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Choose the correct option from the following statements.
Assertion: The movement of a conductor in a magnetic field can induce an emf.
Reason: A change of the magnetic field might cause an emf.

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Assertion: The movement of a conductor in a magnetic field can induce an emf.
Reason: A change of the magnetic field might cause an emf.

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Consider a coil and a magnet.

Current is induced in the coil when:
I. coil and magnet both are at rest.
II. the coil is at rest and the magnet moves along x.
III. magnet is at rest and coil moves along x.
IV. both coil and magnet move along y with the same speed.
The correct statements are:

Consider a coil and a magnet.

Current is induced in the coil when:
I. coil and magnet both are at rest.
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When a bar magnet is pushed towards the coil connected in series with a galvanometer, the pointer in the galvanometer G:

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A loop is formed by connecting a coil of insulated copper wire to a galvanometer, and a magnet is:
A: Held stationary
B: Moved away along its axis
C: Moved along its axis
There will be an induced current in:

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There will be an induced current in:

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