0
question_answer1) The eye can be regarded as a single refracting surface. The radius of curvature of this surface is equal to that of cornea (7.8 mm). This surface separates two media of refractive indices 1 and 1.34. Calculate the distance (in cm) from the refracting surface at which a parallel beam of light will come to focus.
question_answer2) A light wave is incident normally on a glass slab of refractive 1 index 1.5. If 4% of light gets reflected and the amplitude of the electric field of the incident light is 30 V/m, then the amplitude of the electric field (in V/m) for the wave propogating in the glass medium will be:
question_answer3) In figure, the optical fiber is \[l=2\text{ }m\] long and has a diameter of \[d=20\mu m\]. If a ray of light is incident on one end of the fiber at angle \[{{\theta }_{1}}=40{}^\circ ,\]the number of reflections it makes before emerging from the other end is : (refractive index of fiber is 1.31 and \[sin\text{ }40{}^\circ =0.64)\]
question_answer4) A convex lens (of focal length 20 cm) and a concave mirror, having their principal axes along the same lines, are kept 80 cm apart from each other. The concave mirror is to the right of the convex lens. When an object is kept at a distance of 30 cm to the left of the convex lens, its image remains at the same position even if the concave mirror is removed. The maximum distance (in cm) of the object for which this concave mirror, by itself would prduce a virtual image would be:
question_answer5) A concave mirror for face viewing has focal length of 0.4 m. The distance (in metre) at which you hold the mirror from your face in order to see your image upright with a magnification of 5 is:
question_answer6) A concave mirror has radius of curvature of 40 cm. It is at the bottom of a glass that has water filled up to 5 cm (see figure). If a small particle is floating on the surface of water, its image as seen, from directly above the glass, is at a distance d from the surface of water. The value of d (in cm) is: (Refractive index of water \[=1.33\])
question_answer7) A simple telescope, consisting of an objective of focal length 60 cm and a single eye lens of focal length 5 cm is focused on a distant object is such a way that parallel rays comes out from the eye lens. If the object subtends an angle \[2{}^\circ \] at the objective, the angular width (in degree) of the image is
question_answer8) A ray of light falls on a glass plate of refractive index \[\mu =1.5.\] What is the angle of incidence (in degree) of the ray if the angle between the reflected and refracted rays is \[90{}^\circ \]?
question_answer9) A coin lies on the bottom of a vessel filled with water to a depth of 40 cm. At what height (in cm) should a small electric lamp be placed above the water surface so that its image produced by the rays reflected from the water surface coincides with the image of the coin formed by the refracted rays?
question_answer10) A light ray is incident at an angle \[45{}^\circ \] with the normal to a \[\sqrt{2}cm\] thick plate \[\left( \mu =\text{ }2 \right)\]. Find the shift in the path (in cm) of the light as it emerges out from the plate.
question_answer11) The monochromatic beam of light is incident at \[60{}^\circ \] on one face of an equilateral prism of refractive index n and emerges from the opposite face making an angle \[\theta \left( n \right)\] with the normal (see the figure). For \[n=\sqrt{3}\] the value of \[\theta \] is \[60{}^\circ \] and \[\frac{d\theta }{dn}=m.\] The value of m is
question_answer12) A prism ABC of angle \[30{}^\circ \] has its face AC silvered. A ray of light incident at an angle of \[45{}^\circ \] at the face AB retraces its path after refraction at face AB and reflection at face AC. The refractive index of the material of the prism is
question_answer13) A glass sphere of radius 5 cm has a small bubble 2 cm from its centre. The bubble is viewed along a diameter of the sphere from the side on which it lies. How far (in cm) from the surface will it appear. Refractive index of glass is 1.5.
question_answer14) A converging beam of rays is incident on a diverging lens. Having passed through the lens the rays intersect at a point 15 cm from the lens. If the lens is removed the point where the rays meet will move 5 cm closer to the mounting that holds the lens. Find focal length (in cm) of the lens.
question_answer15) The magnifying power of a microscope with an objective of 5mm focal length is 40. The length of its tube is 20cm.Then the focal length (in cm)of the eye - piece is
Please Wait you are being redirected....
You need to login to perform this action.You will be redirected in 3 sec
OTP has been sent to your mobile number and is valid for one hour
Your mobile number is verified.