Have a query? Ask a Tutor!!

Access to best educators and exclusive paper discussions

Offsite Campus Turito Championship

Can’t find what you’re looking for?

Our tutors are from top schools around the world, and they are waiting for you 24/7, anytime, anywhere.

Homework- One to One Solutions
Understand concepts to solve better
Get your doubts solved instantly

Physics-

General

Easy

Question

In an induction coil, the secondary e.m.f. is

Zero during break of the circuit
Very high during make of the circuit
Zero during make of the circuit
Very high during break of the circuit

The correct answer is: Very high during break of the circuit

Related Questions to study

Three solenoid coils of same dimension, same number of turns and same number of layers of winding are taken. Coil 1 with inductance $L subscript 1 end subscript$ was wound using a Mn wire of resistance 11 $capital omega m to the power of negative 1 end exponent$ ;Coil 2 with inductance $L subscript 2 end subscript$ was wound using the similar wire but the direction of winding was reversed in each layer; Coil 3 with inductance $L subscript 3 end subscript$ was wound using a superconducting wire. The self-inductance of the Coils $L subscript 1 end subscript comma blank L subscript 2 end subscript comma blank L subscript 3 end subscript$ are

Three solenoid coils of same dimension, same number of turns and same number of layers of winding are taken. Coil 1 with inductance $L subscript 1 end subscript$ was wound using a Mn wire of resistance 11 $capital omega m to the power of negative 1 end exponent$ ;Coil 2 with inductance $L subscript 2 end subscript$ was wound using the similar wire but the direction of winding was reversed in each layer; Coil 3 with inductance $L subscript 3 end subscript$ was wound using a superconducting wire. The self-inductance of the Coils $L subscript 1 end subscript comma blank L subscript 2 end subscript comma blank L subscript 3 end subscript$ are

Physics-General

A rectangular loop has a sliding connector $P Q$ of length $l$ and resistance $R blank capital omega$ and it is moving with a speed $v$ as shown. The set-up is placed in a uniform magnetic field going into the plane of the paper. The three currents $I subscript 1 end subscript comma I subscript 2 end subscript a n d blank I$ are

A rectangular loop has a sliding connector $P Q$ of length $l$ and resistance $R blank capital omega$ and it is moving with a speed $v$ as shown. The set-up is placed in a uniform magnetic field going into the plane of the paper. The three currents $I subscript 1 end subscript comma I subscript 2 end subscript a n d blank I$ are

Physics-General

Flux $ϕ$ (in weber) in a closed circuit of resistance 20 $capital omega$ varies with time t (in secon(d) according to equation $ϕ equals 6 t to the power of 2 end exponent minus 5 t plus 1.$ The magnitude of the induced current at t =0.25 s is

Flux $ϕ$ (in weber) in a closed circuit of resistance 20 $capital omega$ varies with time t (in secon(d) according to equation $ϕ equals 6 t to the power of 2 end exponent minus 5 t plus 1.$ The magnitude of the induced current at t =0.25 s is

Physics-General

parallel

The horizontal component of the earth’s magnetic field at a place is $3 cross times 10 to the power of negative 4 end exponent blank T$ and the dip is $tan to the power of negative 1 end exponent invisible function application open parentheses fraction numerator 4 over denominator 3 end fraction close parentheses$ . A metal rod of length $0.25 blank m$ placed in the north-south position and is moved at a constant speed of $10 blank c m divided by s$ towards the east. The emf induced in the rod will be

The horizontal component of the earth’s magnetic field at a place is $3 cross times 10 to the power of negative 4 end exponent blank T$ and the dip is $tan to the power of negative 1 end exponent invisible function application open parentheses fraction numerator 4 over denominator 3 end fraction close parentheses$ . A metal rod of length $0.25 blank m$ placed in the north-south position and is moved at a constant speed of $10 blank c m divided by s$ towards the east. The emf induced in the rod will be

Physics-General

An ideal transformer has 500 and 5000 turn in primary and secondary windings respectively. If the primary voltage is connected to a $6 V$ battery then the secondary voltage is

An ideal transformer has 500 and 5000 turn in primary and secondary windings respectively. If the primary voltage is connected to a $6 V$ battery then the secondary voltage is

Physics-General

An electron moves along the line PQ which lies in the same plane as a circular loop of conducting wire as shown in figure. What will be the direction of the induced current in the loop?

An electron moves along the line PQ which lies in the same plane as a circular loop of conducting wire as shown in figure. What will be the direction of the induced current in the loop?
Physics-General

parallel

In 0.1 s, the current in a coil increases from 1A to 1.5 A. If inductance of coil is 60mH, then induced current in external resistance of $3 capital omega$ will be

In 0.1 s, the current in a coil increases from 1A to 1.5 A. If inductance of coil is 60mH, then induced current in external resistance of $3 capital omega$ will be

Physics-General

A body is in pure rotation. The linear speed  of a particle, the distance r of the particle from the axis and the angular velocity  of the body are related as  = $fraction numerator v over denominator r end fraction$ . Thus-

A body is in pure rotation. The linear speed  of a particle, the distance r of the particle from the axis and the angular velocity  of the body are related as  = $fraction numerator v over denominator r end fraction$ . Thus-

Physics-General

Let $stack A with rightwards arrow on top$ be a unit vector along the axis of rotation of a purely rotating body and $stack B with rightwards arrow on top$ be a unit vector along the velocity of a particle P of the body away from the axis. The value of $stack A with rightwards arrow on top. stack B with rightwards arrow on top$ is-

Let $stack A with rightwards arrow on top$ be a unit vector along the axis of rotation of a purely rotating body and $stack B with rightwards arrow on top$ be a unit vector along the velocity of a particle P of the body away from the axis. The value of $stack A with rightwards arrow on top. stack B with rightwards arrow on top$ is-

Physics-General

parallel

If the position vector of a particle is $stack r with hat on top equals left parenthesis 3 stack i with hat on top plus 4 stack j with hat on top right parenthesis$ metre and its angular velocity is $stack omega with rightwards arrow on top equals left parenthesis stack j with hat on top plus 2 stack k with hat on top right parenthesis$ rad/sec then its linear velocity is (in m/s)-

If the position vector of a particle is $stack r with hat on top equals left parenthesis 3 stack i with hat on top plus 4 stack j with hat on top right parenthesis$ metre and its angular velocity is $stack omega with rightwards arrow on top equals left parenthesis stack j with hat on top plus 2 stack k with hat on top right parenthesis$ rad/sec then its linear velocity is (in m/s)-

Physics-General

A chain couples and rotates two wheels in a bicycle. The radii of bigger and smaller wheels in a bicycle. The radii of bigger and smaller wheels are 0.5m and 0.1m respectively. The bigger wheel rotates at the rate of 200 rotations per minute, then the rate of rotation of smaller wheel will be -

A chain couples and rotates two wheels in a bicycle. The radii of bigger and smaller wheels in a bicycle. The radii of bigger and smaller wheels are 0.5m and 0.1m respectively. The bigger wheel rotates at the rate of 200 rotations per minute, then the rate of rotation of smaller wheel will be -

Physics-General

On account of the earth rotating about its axis-

On account of the earth rotating about its axis-

Physics-General

parallel

A particle is moving with a constant angular velocity about an exterior axis. Its linear velocity will depend upon -

A particle is moving with a constant angular velocity about an exterior axis. Its linear velocity will depend upon -

Physics-General

Figure shows a small wheel fixed coaxially on a bigger one of double the radius. The system rotates about the common axis. The strings supporting A and B do not slip on the wheels. If x and y be the distances travelled by A and B in the same time interval, then-

Figure shows a small wheel fixed coaxially on a bigger one of double the radius. The system rotates about the common axis. The strings supporting A and B do not slip on the wheels. If x and y be the distances travelled by A and B in the same time interval, then-
Physics-General

A body rotates at 300 rotations per minute. The value in radian of the angle described in 1 sec is-

A body rotates at 300 rotations per minute. The value in radian of the angle described in 1 sec is-

Physics-General

parallel

card img

With Turito Academy.

card img

With Turito Foundation.

card img

Get an Expert Advice From Turito.

Turito Academy

card img

With Turito Academy.

Test Prep

card img

With Turito Foundation.