Two ploaroids ` P_(1) and P_(2)` are placed with their axes perpendicular to each other. Unpolarised light `I_(0)` is incident on `P_(1)` A third polaroid `P_(3)` is kept in between `P_(1) and P_(2)` such that its axis makes an angle `45^(@)` with that of P_(1) The intensity of transmitted light through `P_(2)` is

Two Polaroids P_(1) and P_(2) are placed with their axis perpendicular to eachother. Unpolarised light I_(0) is nicident on P_(1) . A third polaroid P_(3) is kept in between P_(1) and P_(2) such that its axis makes an angle 45^(@) with that of P_(1) . The intensity of transmitted light through P_(2) is

Two Polaroids P_(1) and P_(2) are placed with their axis perpendicular to eachother. Unpolarised light I_(0) is nicident on P_(1) . A third polaroid P_(3) is kept in between P_(1) and P_(2) such that its axis makes an angle 45^(@) with that of P_(1) . The intensity of transmitted light through P_(2) is

Two polaroids P_(1)" and "P_(2) are placed with their axis perpendicular to each other. Unpolarised light I_(0) is incident of P_1 . A third polaroid P_3 is kept in between P_(1)" and "P_(2) such that its axis makes an angle 45^(@) with that of P_(1) . The intensity of transmitted light through P_(2) is :

(a) Using the phenomenon of polarization, show, how, transverse nature of light can be demonstrated. (b) Two polaroids P_(1) and P_(2) are placed with their pass axes perpendicular to each other. Unpolarised light of intensity 10 is incident on P1. A third polaroid P3 is kept in between P_(1) and P_(2) such that its pass axis makes an angle of 30^(@) with that of P_(1) . Determine the intensity transmitted through P_(1),P_(2) and P_(3) .

Two Polaroids, P_(1)andP_(2) are set-up so that their pass-axis are crossed with respect to each other. A third Polaroids, P_(3) is now introduced between these two so that its pass-axis makes and angle theta with the pass-axis of P_(1) . A beam of unpolarised light, of intensity I, is incident on P_(1) . If the intensity of light, that gets transmitted through this combination of three Polaroids is I' find the ratio ((I')/(I)) when theta equals. (i) 30^(@)" "(ii)45^(@)

(a) Distinguish between unpolarized light and linearly polarized light. How does one get linearly polarised light with the help of a plaroid ? (b) A narrow beam of unpolarised light of intensity I_(0) is incident on a polaroid P_(1) . The light transmitted by it is then incident on a second polaroid P_(2) with its pass axis making angle of 60^(@) relative to the pass axis of P_(1) . Find the intensity of the light transmitted by P_(2) .

State clearly how an unpolarised light gets linearly polarised when passed through a polaroid. Unpolarised light intensity I_(0) is incident P_(1) which is kept near another polaroid P_(2) whose pass axis is parallel to that of P_(1) . How will the intensities of light, I_(1) and I_(2) , transmitted by the polarids P_(1) and P_(2) respectively, change on rotating P_(1) [ without disturbing P_(2) ?

Let P_(1):x-2y+3z=5 and P_(2):2x-3y+z+4=0 be two planes. The equation of the plane perpendicular to the line of intersection of P_(1)=0 and P_(2)=0 and passing through (1,1,1) is

Two pipes P_(1) and P_(2) are closed and open respectively. P_(1) has a length of 0.3 m . Find the length of P_(2) , if third harmonic of P_(1) is same as first harmonic of P_(2) .

Two polaroids are placed such that their planes are parallel to each other with their access of transmission at 30°. If an unpolarised light of intensity I_0 is incident on first polaroid polarizer then intensity of light that will be transmitted through the second polaroid is