In a system of two polarisers , it is found that the intensity of light from the second polarized is half from that of the first polariser .The angle between their pass axes is

What is meant by a linearly polarised light? Which type of waves can be polarised? Briefly explain a method for producing polarised light. Two polaroids are placed at 90^(@) to each other and the intensity of transmitted light is zero. What will be the intensity of transmitted light when one more polaroid is placed between these two bisecting the angle between them ? Take intensity of unpolarised light as I_(0)

Unpolarised light of intensity 32 Wm^(-2) passes through three polarisers such that the transmission axis of the last polariser is crossed with first. If the intensity of the emerging light is 3Wm^(-2) , the angle between the axes of the first two polarisers is

An unpolarised light of intensity 64 Wm^(-2) passes through three polarisers such that the transmission axis of the last polariser is normal to first. If the intensity of emerging light is 6 Wm(-2),then angle between first two polariser may be

An analyser is inclined to a polariser at an angle of 30^(@) . The intensity of light emerging from the analyser is 1/nth of that is incident on the polariser. Then n is equal to

Unpolarized light of intensity I is incident on a system of two polarizers, A followed by B. The intensity of emergent light is I/2 . If a third polarizer C is placed between A and B, the intensity of emergent light is reduced to I/3 . The angle between the polarizers A and C is theta . Then :

An analyser is inclined to a polariser at an angle of 30^(@) . The intensity of light emerging from the analyser is 1"/"n th of that is incident on the polariser. Then n is equal to

Unpolarized light of intensity 32 Wm^(-3) passes through three polarizers such that the transmission axis of the last polarizer is crossed with the first. If the intensity of the emerging light is 3 Wm^(-2) , what is the angle between the transmission axces of the first two polarizers ? At what angle will the transmitted intensity be maximum ?

Arrange the intensities of the transmitted light in their increasing order of magnitudes when they are passed through a system of two polarisers (A) When incident light is unpolarised and of intensity I and the angle between the polarisers is 30^(@) (B) When incident light is polarised of intensity 2I and the angle between the polarisers is 45^(@) (C ) When polarised light of intensity 4I is incident and the angle between the polarisers is 90^(@) (D) When incident light is unpolarised and of intensity 3I and the angle between the polarisers is 30^(@)

Unpolarised light of intensity I passes through an ideal polariser A. Another identical polariser B is placed behind A. The intensity of light beyond B is found to be (I)/(2) . Now another identical polariser C is placed between A and B. The intensity beyond B is now found to be (I)/(8) . the angle between polariser A and C is

How does an unpolarised light get polarised when passed through a polaroid ? Two polaroids are set in crossed positions . A third polaroid is placed between the two making an angle theta with the pass axis of the first polaroid . Write the expression for the intensity of light transmitted from the second polaroid . In what orientations will the transmitted intensity be (i) minimum and (ii) maximum ?