(a) Visible spectrum - 390-763nm
(b) Photon - `3900Å - 7630 Å`
(c) Quantum - U-V rays
(d) Visible light - Gamma rays

Write short notes on (a) microwave (b) X - ray (c ) radio waves (d) visible spectrum

The wavelength of light in the visible region is about 390 nm for violet colour, about 550 nm (average wavelength) for yellowgreen colour and about 760 nm for red colour. (a) What are the energies of photons in (eV) at the (i) violet end, (ii) average wavelength, yellow-green colour, and (iii) red end of the visible spectrum? ("Take h "= 6.63xx10^(-34)" J s and 1 eV" = 1.6xx10^(-19)J.) (b) From which of the photosensitive materials with work functions listed in Table 11.1 and using the results of (i), (ii) and (iii) of (a), can you build a photoelectric device that operates with visible light?

(a) The threshold frequency of photoelectric effect supports the particle nature of sunlight. ( b) The specific charge of positive rays is constant. ( c ) Photosensitive of a metal is high of its work function is small. ( d ) The stopping potential is independent of intensity of the incident light.

Match the following and choose correct combination from the option given {:("column I","Column II"),("a Visible light","i 0.1 to 1nm"),("b Ultraviolet","ii 400 to 700 nm"),("c X-Rays","iii Longer than 740 nm"),("d Infrared","iv 100 to 400 nm lt 0.1 nm"):}

a. The small ozone layer on the top of the stratosphere is crucial for human survival. Why ? b. Where is the position of UV radiation in the electromagnetic spectrum ? c. Can you convert UV to visible radiation ? Explain. d. Which radiation is adjacent to UV to the higher frequency side of the electromagnetic spectrum ?

(i) Keep a glass slab on a blank paper and draw its outline PQRS as shown in the figure. (ii) Draw an inclined straight line on the side of PQ so that it intersect PQ at N. Pierce two pins vertically at two points A and B along the line. (iii) Look at the pins A and B from the opposite side of the slab and pierce pins C and D vertically so that the images of A and B are in line with C and D. (iv) Now remove the chip and the pins and draw a straight line going through points C and D so that it intersects SR at M. (v) Join points M and N. Observe the incident ray AN and emergent ray MD. Questions: (a) What is your observation about the emergent ray and incident ray ?

A thin prism of angle 6.0^@, omega'=0.07 and mu_y'=1.50 is combined with another thin prism having omega = 0.08 and mu_y = 1.60 . The combination produces no deviation in the mean ray. (a) Find the angle of the second prism. (b) Find the net angular dispersion produced by the combination when a beam of white light passes through it. (c) If the prisms are similarly directed, what will be the deviation in the mean ray ? (d) Find the angular dispersion in the situation described in (c).

A triangle ABC has vertices A(5, 1), B (-1, -7) and C(1, 4) respectively. L be the line mirror passing through C and parallel to AB and a light ray eliminating from point A goes along the direction of internal bisector of the angle A, which meets the mirror and BC at E, D respectively. If sum of the areas of triangle ACE and triangle ABE is K sq units then (2K)/5-6 is