The focal length of a convex lens is f. An object is placed at a distance x from the focal point and a real image is formed. The linear magnification has a magnitude

1.  f2x2 

2.  x2f2 

3.  fx 

4.  xf

 

Subtopic:  Lenses |
 64%
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The refractive index of the material of the prism for violet colour is 1.69 and that for red is 1.65. If the refractive index for mean colour is 1.66, the dispersive power of the material of the prism

1.  0.66

2.  0.06

3.  0.65

4.  0.69

 

Subtopic:  Prisms |
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Absolute refractive indices of glass and water are 3/2 and 4/3. The ratio of velocity of light in glass and water will be

1.  4:3

2.  8:7

3.  8:9

4.  3:4

Subtopic:  Refraction at Plane Surface |
 88%
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A thin equiconvex lens of power P is cut into three parts A, B, and C as shown in the figure. If P1, P2, and P3 are powers of the three parts respectively, then

                                                   

1.  P1 = P2 = P3 

2.  P1 > P2 = P3  

3.  P1 < P2 = P3 

4.  P2 = P3 = 2P1

Subtopic:  Lenses |
 63%
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Focal lengths of objective and eyepiece of a compound microscope are 2 cm and 6.25 cm respectively. An object AB is placed at a distance of 2.5 cm from the objective which forms the image B'A' as shown in the figure. Maximum magnifying power in this case is :

                                              

1.  10

2.  20

3.  5

4.  25

Subtopic:  Simple & Compound Microscope |
 63%
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Two identical equiconvex thin lenses each of focal lengths \(20\) cm, made of material of refractive index \(1.5\) are placed coaxially in contact as shown. Now, the space between them is filled with a liquid with a refractive index of \(1.5\). The equivalent power of this arrangement will be:

1. \(+5\) D 2. zero
3. \(+2.5\) D 4. \(+0.5\) D
Subtopic:  Lens Makers' Formula |
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In the situation shown, the incident monochromatic ray retraces its path after its incidence on the silvered surface. The speed of light inside the prism will be

 

1.  3 x 108 ms-1  

2.  2 x 108 ms-1  

3.  1.41 x 108 ms-1  

4.  1.73 x 108 ms-1

Subtopic:  Prisms |
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The sun (diameter D) subtends an angle θ radian at the pole of a concave mirror of focal length f. The diameter of the image of the sun formed by the mirror is:

1.   

2.  2  

3.  2D 

4.  

 

Subtopic:  Reflection at Spherical Surface |
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The focal length of the plano-convex lens is 20 cm. If its plane surface is silvered, then

1.  it behaves as a concave mirror of focal length 10 cm

2.  it behaves as a convex mirror of  focal length of 10 cm

3.  it behaves as a concave mirror of focal length 20 cm

4.  none of these

 

Subtopic:  Lenses |
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A ray of light falls on a transparent sphere as shown in the figure. If the final ray emerges from the sphere parallel to the horizontal diameter, then calculate the refractive index of the sphere. Consider that the sphere is kept in the air.
1. \(\sqrt{2}\) 2. \(\sqrt{3}\)
3. \(\sqrt{3 / 2}\) 4. \(\sqrt{4 / 3}\)
Subtopic:  Refraction at Curved Surface |
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