A stsnding wave `y = 2A sin kx cos omegat` is set up in the wire `AB` fixed at both ends by two vertical walls (see Fig. 3.197). The region between the walls contains a constant magnetic field `B`. Now answer the following question:

In which of the following modes the emf induced in `AB` is always zero?

A stsnding wave y = 2A sin kx cos omegat is set up in the wire AB fixed at both ends by two vertical walls (see Fig. 3.197). The region between the walls contains a constant magnetic field B . Now answer the following question: In the above qestion, the time when the emf becomes maximum for the time is

A standing wave y = 2A sin kx cos omegat is set up in the wire AB fixed at both ends by two vertical walls (see Fig. 3.197). The region between the walls contains a constant magnetic field B . Now answer the following question: The wire is found to vibrate in the third harmonic. The maximum emf induced is

A standing wave y=2A sinkx cos omegat is setup in the wire AB fixed at both ends by two vertical walls (see the figure). the region between the wall contains a constant magnetic field B . Now answer the following questions. In the above question, the time when the emf becomes maximum for the first time is

There are two infinite parallel current carrying wires in vertical plane. Lower wire is fixed and upper wire is having a linear mass density lambda . Two wires are carrying currents I_(1) and I_(2) . Now upper wire is placed in a magnetic field produced by lower wire. Magnetic field due to lower wire at the location of upper wire is (mu_(0)I)/(2pid) , where I_(1) current lower wire, d separation between wires. Force on any small portion of upper wire having length dl is dF=(mu_(0)I_(1)I_(2)dl)/(2pid), where I_(2) current in the upper wire. If directions of current in the wires is appropriate then upper wire can be in equilibrium if its weight is balanced by magnetic force. Now answer the following questions. If upper wire is slightly displaced from its mean position and released it will perform simple harmonic motion. As wire then total mechanical energy of wire

A conducting rod of length l slides at constant velocity v on two parallel conducting rails, placed in a uniform and constant magnetic field B perpendicular to the plane of the rails as shown in Fig.3.49. A resistance R is connected between the two ends of the rails. (a) Idenify the cause which produces change in magnetic flux. (b) Identify the direction of current in the loop. ( c) Determine the emf induced in the loop. (d) Compute the electric power dissipated in the resistor. (e) Calcualte the mechenical power required to pull the rod at a cinstant velovity.

A thin non-conducting ring mass m , radius a , carrying a charge q can rotate freely about its own axis which is vertical. At the initial moment the ring was at rest and no magnetic field was present. At instant t = 0 , a uniform magnetic field is switched on which is vertically downwards and increase with time according to the law B = B_(0)t . Neglecting magnetism induced due to totational motion of the ring. Now answer the following questions. The angular acceleration of the ring and its direction of rotation as seen from above: if E is induced e.m.f

Linked Comprehension Type Based upon each paragraph, three multiple choice questions have to be answered. Each question has four choices: a, b, c, and d, out of which only one is correct For Problems 1-3 center is at Each side of a square has length 4 units and its (3, 4). If one of the diagonals is parallel to the line y x, then answer the following questions 1. Which of the following is not the vertex of the square? a. (1, 6) b. (5, 2) c. (1, 2) d. (4, 6) 2. The radius of the circle inscribed in the triangle formed by any three vertices is a. 2020V2 1) 2012 1) d. none of these 3. The circle inscribed in the triangle forme radius of the by any two vertices of the square and the center is b. 202 1) a. 2012 1) d. none of these v2012 1) For Problems 4-6 Tangents PA and PB are drawn to the circle (x 4) 4 from the point P on the curve y sin x, where A and B on the circle. Consider the function y f(r) represented by locus of the center of the circumcircle of triangle PAB. T answer the following questions

Estimation of frequency of a wave forming a standing wave represented by y = A sin kx cos t can be done if the speed and wavelength are known using speed = "Frequency" xx "wavelength" . Speed of motion depends on the medium properties namely tension in string and mass per unit length of string . A string may vibrate with different frequencies . The corresponding wavelength should be related to the length of the string by a whole number for a string fixed at both ends . Answer the following questions: Speed of a wave in a string forming a stationary wave does not depend on