A metal disc of radius , a =10 cm rotates with a constant angular speed of `omega = 200 rad//s` about its axis.
The potential difference between the centre and the rim of the disc under a uniform magnetic field, B= 5 mT directed perpendicular to the disc, is

A metal disc of radius a rotates with a constant angular velocity omega about its axis. The potential difference between the center and the rim of the disc is ("m = mass of electron, e = charge on electro")

A metal disc of radius a rotates with a constant angular velocity omega about its axis. The potential difference between the center and the rim of the disc is ("m = mass of electron, e = charge on electro")

A metal disc of radius R = 25 cm rotates with a constant angular velocity omega = 130 rad s^(-1) about its axis. Find the potential difference between the center and rim of the disc if (a) the external magnetic field is absent, (b) the external uniform magnetic field B = 5.0 mT directed perpendicular to the disc.

A metal disc of radius R = 25 cm rotates with a constant angular velocity omega = 130 rad s^(-1) about its axis. Find the potential difference between the center and rim of the disc if (a) the external magnetic field is absent, (b) the external uniform megnetic field B = 5.0 mT directed perpendicular to the disc.

A circular metalic disc of radius a is rotating with a uniform angular velocity (w) perpendicularly to the uniform magnetic field vecB . The potential difference between the centre and the rim of the disc is—

A circular disc of radius 20 cm is rotating with a constant angular speed of 2.0 rad//s in a uniform magnetic field of 0.2 T. Find the e.m.f. induced between the centre and rim of the disc. Given magnetic field is along the axis of rotation of disc.

a conducting disc of radius R roatates about its axis when an angular velocity omega .Then the potential difference between the centre of the disc and its edge is (no magnetic field is present ):

A disc of radius 10 cm is rotating about its axis at an angular speed of 20 rad/s. Find the linear speed of a. a point on the rim, b. the middle point of the radius.