A metal rod of length 2 m is rotating with an angualr velocity of 100`"rads"^(-1)` in plane perpendicular to a uniform magnetic field of 0.3 T. The potential difference between the ends of the rod is

A metal rod of length 2 m is rotating with an angular velocity of 100 rad//sec in a plane perpendicular to a uniform magnetic field of 0.3 T . The potential difference between the ends of the rod is

A conducing rod of length l is falling with a velocity v perpendicular to a unifrorm horizontal magnetic field B . The potential difference between its two ends will be

A conducting wheel in which there are four rods of length l is rotating with angular velocity omega in a uniform magnetic field B . The induced potential difference between its centre and rim will be __

A rod of length 20 cm is rotating with angular speed of 100 rps in a magnetic field of strength 0.5 T about it’s one end . What is the potential difference betweet two ends of the rod :

A conducting wheel in which there are four rods of length 25 cm as shown in the figure is rotating with constant velocity 20 rad/s in a uniform magnetic field 8 T . The induced potential difference between its centre and rim will be

A rod of length l rotates with a uniform angular velocity omega about its perpendicular bisector. A uniform magnetic field B exists parallel to the axis of rotation. The potential difference between the two ends of the lrod is

A conducting wheel in which there are four rods of lengthe l as shown in figure is rotating with angular velocity omega in a uniform magnetic field B. The induced potential difference between its centre and rim will be

A metallic metre stick translates in a direction making an angle of 60^(@) with its length.The plane of motion is perpendicular to a uniform magnetic field of 0.1 T that exists in the space.Find the emf induced between the ends of the rod if the speed of translation is 0.2 m//s .