A circular coil of 500 turns of wire has...

A circular coil of 500 turns of wire has an enclosed area of 0.1 `m^(2)` per turn. It is kept perpendicular to a magnetic field of induction 0.2 T and rotated by `180^(@)` about a diameter perpendicular to the field in 0.1 s. How much charge will pass when the coil is connected to a galvanometer with a combined resistance of 50 `Omega`.

Text Solution

AI Generated Solution

To solve the problem step by step, we will follow these calculations: ### Step 1: Identify the given values - Number of turns (n) = 500 - Area per turn (A) = 0.1 m² - Magnetic field induction (B) = 0.2 T - Initial angle (θ₁) = 0° (since the coil is perpendicular to the magnetic field) - Final angle (θ₂) = 180° (after rotation) ...

Topper's Solved these Questions

ELECTROMAGNETIC INDUCTION
AAKASH SERIES|Exercise EXERCISE-IA|58 Videos
ELECTROMAGNETIC INDUCTION
AAKASH SERIES|Exercise EXERCISE-IB|18 Videos
ELECTRIC FIELD AND POTENTIAL
AAKASH SERIES|Exercise PROBLEMS (LEVEL-II)|26 Videos
ELECTROMAGNETIC WAVES
AAKASH SERIES|Exercise EXERCISE -II|22 Videos

Similar Questions

Explore conceptually related problems

A coil of area 500 cm^(2) having 1000 turns is put perpendicular to a magnetic field of intensity 4xx10^(-5) T. if it is rotated by 180^(@) in 0.1 s, the induced emf produced is

A 800 turn coil of effective area 0.05 m^(2) is kept perpendicular to a magnetic field 5xx10^(-5) T. When the plane of the coil is rotated by 90^(@) around any of its coplanar axis in 0.1 s, the emf induced in the coil will be:

A circular coil of 200 mm diameter is made of 100 turns of thin wire and carries a current of 50 mA. Find the magnetic field induction at the centre of the coil.

A circular coil of 100 turns has an effective radius of 0.05 m and carries a current of 0.1 A. How much work is required to turn it in an external magnetic field of 1.5 Wb m^-2 through 180^@ about an axis perpendicular to the magnetic field. The plane of the coil is initially perpendicular to the magnetic field.

A coil of area 2m^2 and resistane 4Omega is placed perpendicular to a uniform magnetic field of 4T . The loop is rotated by 90^@ in 0.1 second. Choose the correct options.

A coil has an area of 0.05 m^(2) and it has 800 turns. It is placed perpendicular in a magnitude field of strength 4xx10^(-5)Wb//m^(2) , it is rotated through 90^(@) in 0.1 sec. the average e.m.f. induced in the coil is

A rectangular coil 20 cm xx 10 cm having 500 turns rotates in a magnetic field of 5 xx 10^(-3) T with a frequency of 1200 rev min^(-1) about an axis perpendicular to the field.

A rectangular copper coil is placed in a uniform magnetic field of induction 40 mT with its plane perpendicular to the field. The area of the coil is shrinking at a constant rate of 0.5m^(2)s^(-1) . The emf induced in the coil is

A rectangular coil of 100 turns and size 0.1mxx0.05m is placed perpendicular to a magnetic field of 0.1 T. If the field drops to 0.05 T in 0.05 s, the magnitude of the emf induced in the coil is

AAKASH SERIES-ELECTROMAGNETIC INDUCTION-Additional Exercise

A circular coil of 500 turns of wire has an enclosed area of 0.1 m^(2)...
Text Solution
|
What would you do to obtain a large deflection of the galvanometer? (b...
Text Solution
|
A square loop of side 10 cm and resistance 0.5 Omega is placed vertica...
Text Solution
|
A circular coil of radius 10 cm, 500 turns and resistance 2 Omega is p...
Text Solution
|
Figure shows planar loops of different shapes moving out of or into a ...
Text Solution
|
(a) A closed loop is held stationary in the magnetic field between the...
Text Solution
|
A metallic rod of 1 m length is rotated with a frequency of 50 revolut...
Text Solution
|
A wheel with 10 metallic spokes each 0.5m long is rotated with a speed...
Text Solution
|
From the given figure, find : x^(@)
Text Solution
|
Two concentric circular coils, one of small radius r(1) and the other ...
Text Solution
|
(a) Obtain the expression for the magnetic energy stored in a solenoid...
Text Solution
|
A person peddles a stationary bicycle the pedals of the bicycle are at...
Text Solution
|