ASTRONOMICAL TELESCOPE
 
 
 
Introduction
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   It is an optical instrument used to view heavenly bodies such as moon,stars, planets and distant object.
Construction
   Astronomical telescope consists of two convex lenses:
Objective
Eye piece
Objective
   The objective is a convex lens of large focal length and large aperture. It usually made of two convex lenses    in contact with each other to reduce the chromatic and spherical aberrations.
Eye piece
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   The eye piece is also a convex lens .Its focal length is smaller than that of objective. It is also a    combination of two lenses.
   The objective is mounted on a wide metallic tube while the eye piece is mounted on a small tube .The    distance b/w the eye piece and the objective can be changed by moving tubes.
WORKING
 
   The rays coming from a distant object falls on objective as parallel beam at some angle say "a" and these    rays after refraction and passing through the objective converge at its focus and make an inverted & real    image AB. This image acts as an object for the eye piece. The distance of the eye piece is so adjusted that    the image AB lies within the focal length of the eye piece. The eye piece forms the final image .The final    image is magnified ,virtual and inverted with respect to object. The final image is formed at infinity.
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MAGNIFYING POWER
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   The magnifying power (M) of astronomical telescope is given by:
   It is because the object is at infinite distance and hence the angle subtended by the object at eye may be    taken as the angle subtended by the object at objective.
M = b/a ............(1)
   since a and b are small angles, therefore we can take:
a = tan a...................
and.....................
b = tan b.............
................
   In right angled triangles DAOB & DAEB

...................
   This expression shows that in order to obtain high magnification, focal length of object must be large and    that of eye piece is small.
LENGTH OF TELESCOPE
   The distance b/w objective lens and the eye piece is equal to the length of the telescope.
   From figure:
   OE = length of telescope =L
But                       
OE = OB + BE   
OB = Fo & BE = Fe    
   OR
   OR
L = focal length of objective + focal length of eye piece
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