A crown glass prism of angle 5^@ is to b...

A crown glass prism of angle `5^@` is to be combined with a flint glass prism in such a way that the mean ray passes undeviated. Find (a) the angle of the flint glass prism needed and (b) the angular dispersion produced by the combination when white light goes through it. Refractive indices for red, yellow and viloet light are 1.514, 1.517 and 1.523 respectively for crown glass and 1.613 1.620 and 1.632 for flint glass.

Text Solution

Verified by Experts

The deciation production by the crown prisim is
`delta = (mu-1)A`
and by the flint prism is:
`delta' = (mu' - 1)A`
The prims are placed with their angles inverted with respect to each other. The deviations are also in opposite directions. Thus, the net deviation is:
`D = delta - delta' = (mu -1)A - (mu' -1)A'` ...........(1)
(a) If the net deviation for the mean ray is zero,
`(mu - 1)A = (mu' - 1)A'`
or `A' = ((mu-1))/((mu'-1))A = (1.6-1)/(2.0-1) xx 5^(@) = 3^(@)`
(b) the angular dispersion produced by the crown prism is:
`delta_(V) - delta_(r) = mu_(V0 - mu_(0))A`
and that by the fint prism is,
`delta'_(V) - delta'_(r) = (mu'_(V) - mu'_(t))A`
The net angular dispersion is,
`(mu_(V) - mu_(r))A - (mu'_(V) - mu'_(t))A`
`(1.7 - 1.5) xx 5^(@) - (2.2 - 1.8) xx3^(@)`
The angular dispertion has magnitude `0.2^(@)`

Topper's Solved these Questions

GEOMATRICAL OPTICS
RESONANCE ENGLISH|Exercise Problem|33 Videos
GEOMATRICAL OPTICS
RESONANCE ENGLISH|Exercise Exercise-1|141 Videos
EXPERIMENTAL PHYSICS
RESONANCE ENGLISH|Exercise PART -II|10 Videos
GRAVITATION
RESONANCE ENGLISH|Exercise HIGH LEVEL PROBLEMS|16 Videos

Similar Questions

Explore conceptually related problems

A crown glass prism of angle 5^(@) is to be combined with a flint prism in such a way that the mean ray passes undeviated. Find (a) the angle of the flint glass prism needed and (b) the angular dispersion produced by the combinatino when white light goes through it. Refractive indices for red, yellow, and violet light are 1.541, 1.517 and 1.523, repectively, for crown flass and 1.613, 1.620 and 1.632 for flint glass.

We have to combine a crown glass prism of angle 4^(@) with a flint glass prism in such a way that the mean ray passes undeviated, find (i) the angle of the flint glass prism needed and (i) the angular dispersion produced by the combination when white light goes through it. Refractive indices for red, yellow and violet light are 1.514, 1.517 and 1.523 respectively for crown glass and 1.613, 1.620 and 1.632 for flint glass.

Find the dispersive power of flint glass. The refractive indices of flint glass for red, yellow and violet light are 1.613, 1.620 and 1.632 respectively.

The refractive indices of flint glass prism for violet, Yellow and Red colours are 1.790, 1.795 and 1.805 respectively, find dispersive power of the flint glass.

The refractive indices of violet and red light are 1.54 and 1.52 respectively. If the angle of prism is 10^(@) , then the angular dispersion is

The refractive indices of crown glass prism of C,D and F lines are 1.527, 1.530 and 1.535 respectively. Find the dispersive power of the crown glass prism.

A prism of crown glass with refracting angle of 5^(@) and mean refractive index = 1.151 is combined with a flint glass prism of refractive index = 1.65 to produce deviation. Find the angle of fliint glass.

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 crown glass prism of refracting angle 8^(@) is combined with a flint glass prism to obtain deviation without dispersion. If the refractive indicates for red and violet rays for the crown glass are 1.514 and 1.524 and for the flint glass are 1.645 and 1.665 respectivey, find the angle of flint glass prism and net deviation.

RESONANCE ENGLISH-GEOMATRICAL OPTICS -Advance level Problems

A crown glass prism of angle 5^@ is to be combined with a flint glass ...
Text Solution
|
A U-shaped wire is placed before a concave having radius of curvature ...
Text Solution
|
A paperweight in the form of a hemisphere of radius 3.0 cm is used to ...
Text Solution
|
A hollow sphere of glass of refractive index mu has a small mark on it...
Text Solution
|
Two media each of refractive index 1.5 with plane parallel boundaries ...
Text Solution
|
Two converging lenses of the same focal length f are separated by a di...
Text Solution
|
Two plane mirrors makes an angle of 120^(@) with each other. The dista...
Text Solution
|
A kid of height 1.1 ft is sleeping straight between focus and centre o...
Text Solution
|
The average size of an Indian face is 24xx16 cm^(2). Find the minimum ...
Text Solution
|
As shown in Figure,. And object O is at the position (-10,2) with resp...
Text Solution
|
A point sourcs S is moving with a speed of 10 m//s in x-y plane as sho...
Text Solution
|
A man is standing at the edge of a 1m deep swimming pool, completely f...
Text Solution
|
An object lies in front if a thick parallel glass slab, the bottom of ...
Text Solution
|
A beam of parallel rays of diameter 'b' propagates in glass at an angl...
Text Solution
|
A small ball is thrown from the edge of one bank of a river of width 1...
Text Solution
|
Two concave mirrors each of focal length 'f' are placed infront of eac...
Text Solution
|
An observer observer a fish moving upwards in a cylindrical container ...
Text Solution
|
The figure shows the square face (of side 'a') of a transparent cuboid...
Text Solution
|
An insect at point 'P' sees its two images in the water mirror system ...
Text Solution
|
A ray of light is incident on a surface in a direction given by vector...
Text Solution
|
If an observer sees the bottom of the vessel shown in Figure., at 8cm,...
Text Solution
|