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 the circuit shown in figure, a conducting wire HE is moved with a constant speed V towards left. The complete circuit is placed in a uniform magnetic field $stack B with rightwards arrow on top$ perpendicular to the plane of the circuit directed in inward direction. The current in HKDE is

clockwise
anticlockwise
alternating
zero

The correct answer is: zero

Related Questions to study

An equilateral triangular loop ADC of some finite magnetic field $stack B with rightwards arrow on top$ as shown in the figure. At time t = 0, side DC of loop is at edge of the magnetic field. Magnetic field is perpendicular to the paper inwards (or perpendicular to the plane of the coil). The induced current versus time graph will be as

An equilateral triangular loop ADC of some finite magnetic field $stack B with rightwards arrow on top$ as shown in the figure. At time t = 0, side DC of loop is at edge of the magnetic field. Magnetic field is perpendicular to the paper inwards (or perpendicular to the plane of the coil). The induced current versus time graph will be as

physics-General

A conducting rod PQ of length 5 m oriented as shown in figure is moving with velocity $left parenthesis 2 m divided by s right parenthesis stack i with hat on top$ without any rotation in a uniform magnetic field $left parenthesis 3 stack j with hat on top plus 4 stack k with hat on top right parenthesis$ Tesla. Emf induced in the rod is

A conducting rod PQ of length 5 m oriented as shown in figure is moving with velocity $left parenthesis 2 m divided by s right parenthesis stack i with hat on top$ without any rotation in a uniform magnetic field $left parenthesis 3 stack j with hat on top plus 4 stack k with hat on top right parenthesis$ Tesla. Emf induced in the rod is

physics-General

There is a uniform magnetic field B normal to the xy plane. A conductor ABC has length $A B equals l subscript 1 end subscript$ parallel to the x-axis, and length $B C equals l subscript 2 end subscript comma$ parallel to the y-axis. ABC moves in the xy plane with velocity $v subscript x end subscript stack i with hat on top plus v subscript y end subscript stack j with hat on top$ The potential difference between A and C is proportional to

There is a uniform magnetic field B normal to the xy plane. A conductor ABC has length $A B equals l subscript 1 end subscript$ parallel to the x-axis, and length $B C equals l subscript 2 end subscript comma$ parallel to the y-axis. ABC moves in the xy plane with velocity $v subscript x end subscript stack i with hat on top plus v subscript y end subscript stack j with hat on top$ The potential difference between A and C is proportional to

physics-General

parallel

A rod closing the circuit shown in figure moves along a U shaped wire at a constant speed v under the action of the force F. The circuit is in a uniform magnetic field perpendicular to the plane. Calculate F if the rate of heat generation in the circuit is Q

A rod closing the circuit shown in figure moves along a U shaped wire at a constant speed v under the action of the force F. The circuit is in a uniform magnetic field perpendicular to the plane. Calculate F if the rate of heat generation in the circuit is Q

physics-General

A conducting rod of length l moves with velocity $v$ a direction parallel to a long wire carrying a steady current I. The axis of the rod is maintained perpendicular to the wire with near end a distance r away as shown in the fig. Find the emf induced in the rod.

A conducting rod of length l moves with velocity $v$ a direction parallel to a long wire carrying a steady current I. The axis of the rod is maintained perpendicular to the wire with near end a distance r away as shown in the fig. Find the emf induced in the rod.

physics-General

A conducting rod moves with constant velocity u perpendicular to the long, straight wire carrying a current I as shown compute that the emf generated between the ends of the rod.

A conducting rod moves with constant velocity u perpendicular to the long, straight wire carrying a current I as shown compute that the emf generated between the ends of the rod.

physics-General

parallel

Two conducting rings P and Q of radii r and 2r rotate uniformly in opposite directions with centre of mass velocities 2v and v respectively on a conducting surface S. There is a uniform magnetic field of magnitude B perpendicular to the plane of the rings. The potential difference between the highest points of the two rings is

Two conducting rings P and Q of radii r and 2r rotate uniformly in opposite directions with centre of mass velocities 2v and v respectively on a conducting surface S. There is a uniform magnetic field of magnitude B perpendicular to the plane of the rings. The potential difference between the highest points of the two rings is

physics-General

A square metal loop of side 10 cm and resistance 1 $capital omega$ is moved with a constant velocity partly inside a magnetic field of 2 Wb m^–2, directed into the paper, as shown in the figure. This loop is connected to a network of five resistors each of value 3 $capital omega$ . If a steady current of 1 mA flows in the loop, then the speed of the loop is

A square metal loop of side 10 cm and resistance 1 $capital omega$ is moved with a constant velocity partly inside a magnetic field of 2 Wb m^–2, directed into the paper, as shown in the figure. This loop is connected to a network of five resistors each of value 3 $capital omega$ . If a steady current of 1 mA flows in the loop, then the speed of the loop is

physics-General

The figure shows an isosceles triangle wire frame with apex angle equal to $pi divided by 2$ . The frame starts entering into the region of uniform magnetic field B with constant velocity v at t= 0. The longest side of the frame is perpendicular to the direction of velocity. If i is the instantaneous current through the frame then choose the alternative showing the correct variation of i with time.

The figure shows an isosceles triangle wire frame with apex angle equal to $pi divided by 2$ . The frame starts entering into the region of uniform magnetic field B with constant velocity v at t= 0. The longest side of the frame is perpendicular to the direction of velocity. If i is the instantaneous current through the frame then choose the alternative showing the correct variation of i with time.

physics-General

parallel

Two identical conductors P and Q are placed on two frictionless rails R and S in a uniform magnetic field directed into the plane. If P is moved in the direction shown in figure with a constant speed then rod Q

Two identical conductors P and Q are placed on two frictionless rails R and S in a uniform magnetic field directed into the plane. If P is moved in the direction shown in figure with a constant speed then rod Q

physics-General

Two infinitely long conducting parallel rails are connected through a capacitor C as shown in the figure. A conductor of length l is moved with constant speed

Two infinitely long conducting parallel rails are connected through a capacitor C as shown in the figure. A conductor of length l is moved with constant speed

physics-General

A negative charge is given to a nonconducting loop and the loop is rotated in the plane of paper about its centre as shown in figure. The magnetic field produced by the ring affects a small magnet placed above the ring in the same plane:

A negative charge is given to a nonconducting loop and the loop is rotated in the plane of paper about its centre as shown in figure. The magnetic field produced by the ring affects a small magnet placed above the ring in the same plane:

physics-General

parallel

Figure shows a bar magnet and a long straight wire W, carrying current into the plane of paper. Point P is the point of intersection of axis of magnet and the line of shortest distance between magnet and the wire. If P is the midpoint of the magnet, then which of the following statements is correct ?

Figure shows a bar magnet and a long straight wire W, carrying current into the plane of paper. Point P is the point of intersection of axis of magnet and the line of shortest distance between magnet and the wire. If P is the midpoint of the magnet, then which of the following statements is correct ?

physics-General

An electric current $i subscript 1 end subscript$ can flow either direction through loop (1) and induced current $i subscript 2 end subscript$ n loop (2). Positive i1 is when current is from 'a' to 'b' in loop (1) and positive $i subscript 2 end subscript$ is when the current is from 'c' to 'd' in loop (2) In an experiment, the graph of $i subscript 2 end subscript$ against time 't' is as shown below

Which one(s) of the following graphs could have caused $i subscript 2 end subscript$ to behave as give above.

An electric current $i subscript 1 end subscript$ can flow either direction through loop (1) and induced current $i subscript 2 end subscript$ n loop (2). Positive i1 is when current is from 'a' to 'b' in loop (1) and positive $i subscript 2 end subscript$ is when the current is from 'c' to 'd' in loop (2) In an experiment, the graph of $i subscript 2 end subscript$ against time 't' is as shown below

Which one(s) of the following graphs could have caused $i subscript 2 end subscript$ to behave as give above.

physics-General

In the arrangement shown in given figure current from A to B is increasing in magnitude. Induced current in the loop will

In the arrangement shown in given figure current from A to B is increasing in magnitude. Induced current in the loop will

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.