Angular Magnification
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Q. You are given two converging lenses of focal lengths 1.25 cm and 5 cm to design a compound microscope. If it is desired to have a magnification of -30, find out the separation between the objective and the eyepiece.
Q. The length of the compound microscope is 20 cm. The focal length of the eyepiece is 5 cm. If the magnifying power for the relaxed eye is 25, then find the object distance from the objective lens.
- 6 cm
- 5 cm
- 4 cm
- 3 cm
Q. In a compound microscope, magnification will be large, if the focal length of the eye piece is
- Large
- Smaller
- Equal to that of objective
- Less than that of objective
Q.
A simple microscope is rated 5 X for a normal relaxed eye. What will be its magnifying power for a relaxed farsighted eye whose near point is 40 cm?
Q.
For an object at infinity, the focal length of a normal eye-lens is about
Q. A thin glass (refractive index 1.5) lens has optical power of – 5D in air. Its optical power in a liquid medium is
- 58D
- - 25D
- 25 D
- -1D
Q.
For which of the following colour, the magnifying power of a microscope will be maximum
White colour
Red colour
Violet colour
Yellow colour
Q. What should be the distance between the object in Exercise 9.30 and the magnifying glass if the virtual image of each square in thefigure is to have an area of 6.25 mm2 . Would you be able to see thesquares distinctly with your eyes very close to the magnifier ?[Note: Exercises 9.29 to 9.31 will help you clearly understand thedifference between magnification in absolute size and the angularmagnification (or magnifying power) of an instrument.]
Q. The length of the compound microscope is 18 cm. The magnifying power for the relaxed eye is 28, find the object distance from the objective lens, if the focal length of the eyepiece is 4 cm.
- 3.125 cm
- 3.750 cm
- 2.125 cm
- 2.750 cm
Q. A thin glass (refractive index 1.5) lens has optical power of – 5D in air. Its optical power in a liquid medium is
- 58D
- - 25D
- 25 D
- -1D
Q. A simple microscope is rated 5X for a normal and relaxed eye. What will be its magnifying power for a relaxed eye, whose near point is 50 cm?
- 8X
- 4X
- 10X
- 20X
Q. The length of the compound microscope is 18 cm. If the magnifying power for the relaxed eye is 28, find the object distance for the objective lens. Focal length of the eyepiece is 4 cm and D=25 cm.
- 3.12 cm
- 3.75 cm
- 2.50 cm
- 2.75 cm
Q. A student sitting on the last bench can read the letters written on the blackboard but is not able to read the letters written in his text book. Which of the following statements is correct?
- The near point of his eyes has receded away.
- The near point of his eyes has come closer to him.
- The far point of his eyes has come closer to him.
- The far point of his eyes has receded away.
Q. The diameter of the eye ball of a normal eye is about 2.5 cm. The power of the eye lens varies from
- 9 D to 8 D
- 44 D to 40 D
- None of these
- 40 D to 32 D
Q. Telescope has an objective of focal length 50 cm and an eye-piece of focal length 5 cm. The least distance of distinct vision is 25 cm. The telescope is focused for distinct vision on a scale 2 m away from the objective. Magnification produced is
- 2
- 1
- 3
- 4
Q. A lens made up of different material forms two images of a point object ′O′ as shown in figure. Then
- μ1>μ2
- μ1=μ2
- μ2>μ3
- Data imufficient
Q. If the focal length of the objective lens is increased, then the magnifying power of -
- compound microscope will increase, but that of telescope will decrease.
- both compound microscope and telescope will increase.
- both compound microscope and telescope will decrease.
- compound microscope will decrease, but that of telescope will increase.
Q. A thin glass (refractive index 1.5) lens has optical power of – 5D in air. Its optical power in a liquid medium is
- 58D
- - 25D
- 25 D
- -1D
Q.
For which of the following colour, the magnifying power of a microscope will be maximum
White colour
Red colour
Violet colour
Yellow colour
Q. The size of an object as perceived by an eye depends primarily on,
(i) Actual size of the object
(ii) Distance of the object from the eye
(iii) Aperture of the pupil
(i) Actual size of the object
(ii) Distance of the object from the eye
(iii) Aperture of the pupil
- (i) and (ii)
- (i) and (iii)
- (ii) and (iii)
- (i), (ii) and (iii)
Q. Your friend is having eye sight problem. She is not able to see clearly a distant uniform window mesh and it appears to her as non-uniform and distorted. The doctor diagnosed the problem as:
- Myopia and hypermetropia
- Astigmatism
- Myopia with astigmatism
- Presbyopia with astigmatism
Q. Which of the following statements are true in the context of a compound Microscope?
(A) Each lens produces a virtual and inverted image
(B) The objective has a very short focal length
(C) The eyepiece is used as a simple magnifying glass
(D) The objective and eyepiece are convex and concave lenses respectively
(A) Each lens produces a virtual and inverted image
(B) The objective has a very short focal length
(C) The eyepiece is used as a simple magnifying glass
(D) The objective and eyepiece are convex and concave lenses respectively
- (A), (B) and (D)
- (B) and (C)
- (B) and (D)
- (A), (C) and (D)
Q. A simple microscope is rated 5 X for a normal relaxed eye. What will be its magnifying power for a relaxed farsighted eye whose near point is 40 cm?
- 5
- 12.5
- 200
- 8
Q.
What are the factors affecting the refractive index of a lens?
Q. Where should a pen be placed to form the largest image on retina? (and not be blurred)
- Beyond near point
- Between near point and eye
- At near point
- \N
Q. Find the maximum magnifying power of a compound microscope having a 25 diopter lens as the objective, a 5 diopter lens as the eyepiece and the separation 30 cm between the two lenses. The least distance for clear vision is 25 cm.
- 3.3
- 6.8
- 8.5
- 9.1
Q. A simple microscope is rated 5X for a normal relaxed eye. What will be its magnifying power for a relaxed farsighted eye whose near point is 50 cm ?
- 5X
- 8X
- 10X
- 12X
Q. The eye can detect 5×404 photons (m2s)−1 of green light (λ=5000oA), while ear can detect 10−13Wm−2. As a power detector, which is more sensitive and by what factor?
- Ear is more sensitive by a factor of 5.00
- Eye is more sensitive and by a factor of 5.00
- Both are equally sensitive
- Eye is more sensitive by a factor of 10−1
Q. A spherical surface of radius of curvature R separates air (refractive index 1.0) from glass (refractive index 1.5). The center of curvature is in glass. A point object P placed in air is found to have a real image Q in the glass. The line PQ cuts the surface at a point O and PO = OQ. The distance PO is equal to
- R
- 3R
- 2R
- 5R
Q.
For which of the following colour, the magnifying power of a microscope will be maximum
White colour
Red colour
Violet colour
Yellow colour