A beam of plane polarized light falls normally on a polarizer of cross sectional area `3xx10^-4m^2`. Flux of energy of incident ray in `10^-3W`. The polarizer rotates with an angular frequency of `31.4 rad//sec`. The energy of light passing through the polarizer per revolution will be

A beam of unpolarised light having flux 10^(-2) watt falls normally on a polariser of cross sectional area 3 xx 10^(-4) m^(2) . The polariser rotates with an angular frequency of pi rad/s. The energy of liggt passing through the polariser per revolution will be

A beam of plane polarised light falls normally on a polariser (cross sectional area 3 xx 10^(-4)m^(2) ) which rotates about the axis of the ray with an angular velocity of 31.4 rad//s . Find the energy of light passing through polariser per revolution and the intensity of emergent beam, if flux of energy of the incident ray is 10^(-3) W .

A beam of plane polarized light having flux 10^(-3) Watt falls normally on polarizer of cross sectional area 3x10^(-4) m^2. Polarizer rotates with angular frequency of 31.4 rad/s. Energy of light passes through the polarizer per resolution will be

A beam of plane polarised light of large cross - sectional area and uniform intensity of 3.3Wm^(-2) falls normally on a polarises (cross sectional are 3xx10^(-4)m^2 ) which rotates about its axis with an angular speed of 31.4 rad/s . The energy of light passing through the polariser per revolution , is close to :

A beam of plane polarised falls normally on a polariser (cross section area 3xx10^(-4),^(2)) Find the energy of light pssing through the polariser per revolution and the intensisty of the emergent beam if the flux of energy of the incident ray is 10^(-3)W .

A beam of plane-polarized light falls on a polarizer which rotates about the axis of the ray with angular velocity omega = 21rad//s . Find the energy of light passing through the Polarizer per one revolution if the flux of energy of the incident ray is equal to Phi_(0) = 4.0mW .

A current of 4.8 A is flowing in a copper wire of cross-sectional area 3xx10^(-4) m^(2) . Find the current density in the wire.

What is the self-inductance of solenoid of length 31.4 cm, area of cross-section 10^(-3)m^(2) and total number of turn 10^(3) ?

Intensity of plane polarized light is 3.3 W/m. Area of plane 3 x 10^(-4) m^2 and polarizer rotates with 10pi rad/sec. Energy transmitted in 1 complete cycle

A plane polarized beam of intensity I is incident on a polariser with the electric vector inclined at 30^(@) to the optical axis of the polariser passes through an analyzer whose optic axis is inclined at 30^(@) to that of polariser. Intensity of light coming out of the analyzer is