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Page 1 Previous Year Questions (2021-24): Ray Optics 2024 Q1 - 2024 (01 Feb Shift 1) The distance between object and its 3 times magnified virtual image as produced by a convex lens is 20 cm . The focal length of the lens used is cm . Q2 - 2024 (27 Jan Shift 1) If the refractive index of the material of a prism is cot?( ?? 2 ), where ?? is the angle of prism then the angle of minimum deviation will be (1) ?? - 2 A (2) ?? 2 - 2 A (3) ?? - A (4) ?? 2 - A Q3 - 2024 (27 Jan Shift 1) A convex lens of focal length 40 cm forms an image of an extended source of light on a photoelectric cell. A current ?? is produced. The lens is replaced by another convex lens having the same diameter but focal length 20 cm . The photoelectric current now is : (1) 1 2 (2) 4 I (3) 2 I (4) I Q4 - 2024 (27 Jan Shift 1) Two immiscible liquids of refractive indices 8 5 and 3 2 respectively are put in a beaker as shown in the figure. The height of each column is 6 cm . A coin is Page 2 Previous Year Questions (2021-24): Ray Optics 2024 Q1 - 2024 (01 Feb Shift 1) The distance between object and its 3 times magnified virtual image as produced by a convex lens is 20 cm . The focal length of the lens used is cm . Q2 - 2024 (27 Jan Shift 1) If the refractive index of the material of a prism is cot?( ?? 2 ), where ?? is the angle of prism then the angle of minimum deviation will be (1) ?? - 2 A (2) ?? 2 - 2 A (3) ?? - A (4) ?? 2 - A Q3 - 2024 (27 Jan Shift 1) A convex lens of focal length 40 cm forms an image of an extended source of light on a photoelectric cell. A current ?? is produced. The lens is replaced by another convex lens having the same diameter but focal length 20 cm . The photoelectric current now is : (1) 1 2 (2) 4 I (3) 2 I (4) I Q4 - 2024 (27 Jan Shift 1) Two immiscible liquids of refractive indices 8 5 and 3 2 respectively are put in a beaker as shown in the figure. The height of each column is 6 cm . A coin is placed at the bottom of the beaker. For near normal vision, the apparent depth of the coin is ?? 4 cm . The value of ?? is Q5 - 2024 (29 Jan Shift 1) A convex mirror of radius of curvature 30 cm forms an image that is half the size of the object. The object distance is : (1) -15 cm (2) 45 cm (3) -45 cm (4) 15 cm Q6 - 2024 (29 Jan Shift 1) A biconvex lens of refractive index 1.5 has a focal length of 20 cm in air. Its focal length when immersed in a liquid of refractive index 1.6 will be: (1) -16 cm (2) -160 cm (3) +160 cm (4) +16 cm Q7 - 2024 (29 Jan Shift 2) If the distance between object and its two times magnified virtual image produced by a curved mirror is 15 cm , the focal length of the mirror must be : (1) 15 cm (2) -12 cm (3) -10 cm Page 3 Previous Year Questions (2021-24): Ray Optics 2024 Q1 - 2024 (01 Feb Shift 1) The distance between object and its 3 times magnified virtual image as produced by a convex lens is 20 cm . The focal length of the lens used is cm . Q2 - 2024 (27 Jan Shift 1) If the refractive index of the material of a prism is cot?( ?? 2 ), where ?? is the angle of prism then the angle of minimum deviation will be (1) ?? - 2 A (2) ?? 2 - 2 A (3) ?? - A (4) ?? 2 - A Q3 - 2024 (27 Jan Shift 1) A convex lens of focal length 40 cm forms an image of an extended source of light on a photoelectric cell. A current ?? is produced. The lens is replaced by another convex lens having the same diameter but focal length 20 cm . The photoelectric current now is : (1) 1 2 (2) 4 I (3) 2 I (4) I Q4 - 2024 (27 Jan Shift 1) Two immiscible liquids of refractive indices 8 5 and 3 2 respectively are put in a beaker as shown in the figure. The height of each column is 6 cm . A coin is placed at the bottom of the beaker. For near normal vision, the apparent depth of the coin is ?? 4 cm . The value of ?? is Q5 - 2024 (29 Jan Shift 1) A convex mirror of radius of curvature 30 cm forms an image that is half the size of the object. The object distance is : (1) -15 cm (2) 45 cm (3) -45 cm (4) 15 cm Q6 - 2024 (29 Jan Shift 1) A biconvex lens of refractive index 1.5 has a focal length of 20 cm in air. Its focal length when immersed in a liquid of refractive index 1.6 will be: (1) -16 cm (2) -160 cm (3) +160 cm (4) +16 cm Q7 - 2024 (29 Jan Shift 2) If the distance between object and its two times magnified virtual image produced by a curved mirror is 15 cm , the focal length of the mirror must be : (1) 15 cm (2) -12 cm (3) -10 cm (4) 10/3 cm Q8 - 2024 (30 Jan Shift 1) The distance between object and its two times magnified real image as produced by a convex lens is 45 cm . The focal length of the lens used is __ cm . Q9 - 2024 (30 Jan Shift 2) In an experiment to measure the focal length (f) of a convex lens, the magnitude of object distance (x) and the image distance (y) are measured with reference to the focal point of the lens. The ?? - ?? plot is shown in figure. The focal length of the lens is __ cm . Q10 - 2024 (31 Jan Shift 1) The refractive index of a prism with apex angle A is cot?A/2. The angle of minimum deviation is : (1) ?? m = 180 ° - A (2) ?? m = 180 ° - 3 A (3) ?? m = 180 ° - 4 A (4) ?? ?? = 180 ° - 2 A Page 4 Previous Year Questions (2021-24): Ray Optics 2024 Q1 - 2024 (01 Feb Shift 1) The distance between object and its 3 times magnified virtual image as produced by a convex lens is 20 cm . The focal length of the lens used is cm . Q2 - 2024 (27 Jan Shift 1) If the refractive index of the material of a prism is cot?( ?? 2 ), where ?? is the angle of prism then the angle of minimum deviation will be (1) ?? - 2 A (2) ?? 2 - 2 A (3) ?? - A (4) ?? 2 - A Q3 - 2024 (27 Jan Shift 1) A convex lens of focal length 40 cm forms an image of an extended source of light on a photoelectric cell. A current ?? is produced. The lens is replaced by another convex lens having the same diameter but focal length 20 cm . The photoelectric current now is : (1) 1 2 (2) 4 I (3) 2 I (4) I Q4 - 2024 (27 Jan Shift 1) Two immiscible liquids of refractive indices 8 5 and 3 2 respectively are put in a beaker as shown in the figure. The height of each column is 6 cm . A coin is placed at the bottom of the beaker. For near normal vision, the apparent depth of the coin is ?? 4 cm . The value of ?? is Q5 - 2024 (29 Jan Shift 1) A convex mirror of radius of curvature 30 cm forms an image that is half the size of the object. The object distance is : (1) -15 cm (2) 45 cm (3) -45 cm (4) 15 cm Q6 - 2024 (29 Jan Shift 1) A biconvex lens of refractive index 1.5 has a focal length of 20 cm in air. Its focal length when immersed in a liquid of refractive index 1.6 will be: (1) -16 cm (2) -160 cm (3) +160 cm (4) +16 cm Q7 - 2024 (29 Jan Shift 2) If the distance between object and its two times magnified virtual image produced by a curved mirror is 15 cm , the focal length of the mirror must be : (1) 15 cm (2) -12 cm (3) -10 cm (4) 10/3 cm Q8 - 2024 (30 Jan Shift 1) The distance between object and its two times magnified real image as produced by a convex lens is 45 cm . The focal length of the lens used is __ cm . Q9 - 2024 (30 Jan Shift 2) In an experiment to measure the focal length (f) of a convex lens, the magnitude of object distance (x) and the image distance (y) are measured with reference to the focal point of the lens. The ?? - ?? plot is shown in figure. The focal length of the lens is __ cm . Q10 - 2024 (31 Jan Shift 1) The refractive index of a prism with apex angle A is cot?A/2. The angle of minimum deviation is : (1) ?? m = 180 ° - A (2) ?? m = 180 ° - 3 A (3) ?? m = 180 ° - 4 A (4) ?? ?? = 180 ° - 2 A Q11 - 2024 (31 Jan Shift 2) Light from a point source in air falls on a convex curved surface of radius 20 cm and refractive index 1.5 . If the source is located at 100 cm from the convex surface, the image will be formed at cm from the object. Answer Key Q1 (15) ?? 2(1) Q3 (4) Q4 (31) Q5 (1) Q6 (2) Q7 (3) ???? (10) Q9(20) Q10 (4) Q11 (200) Solutions Q1 ?? = 3?? ?? - ?? = 20 cm 2?? = 20 cm ?? = 10 cm 1 (-30) - 1 (-10) = 1 ?? ?? = 15 cm Page 5 Previous Year Questions (2021-24): Ray Optics 2024 Q1 - 2024 (01 Feb Shift 1) The distance between object and its 3 times magnified virtual image as produced by a convex lens is 20 cm . The focal length of the lens used is cm . Q2 - 2024 (27 Jan Shift 1) If the refractive index of the material of a prism is cot?( ?? 2 ), where ?? is the angle of prism then the angle of minimum deviation will be (1) ?? - 2 A (2) ?? 2 - 2 A (3) ?? - A (4) ?? 2 - A Q3 - 2024 (27 Jan Shift 1) A convex lens of focal length 40 cm forms an image of an extended source of light on a photoelectric cell. A current ?? is produced. The lens is replaced by another convex lens having the same diameter but focal length 20 cm . The photoelectric current now is : (1) 1 2 (2) 4 I (3) 2 I (4) I Q4 - 2024 (27 Jan Shift 1) Two immiscible liquids of refractive indices 8 5 and 3 2 respectively are put in a beaker as shown in the figure. The height of each column is 6 cm . A coin is placed at the bottom of the beaker. For near normal vision, the apparent depth of the coin is ?? 4 cm . The value of ?? is Q5 - 2024 (29 Jan Shift 1) A convex mirror of radius of curvature 30 cm forms an image that is half the size of the object. The object distance is : (1) -15 cm (2) 45 cm (3) -45 cm (4) 15 cm Q6 - 2024 (29 Jan Shift 1) A biconvex lens of refractive index 1.5 has a focal length of 20 cm in air. Its focal length when immersed in a liquid of refractive index 1.6 will be: (1) -16 cm (2) -160 cm (3) +160 cm (4) +16 cm Q7 - 2024 (29 Jan Shift 2) If the distance between object and its two times magnified virtual image produced by a curved mirror is 15 cm , the focal length of the mirror must be : (1) 15 cm (2) -12 cm (3) -10 cm (4) 10/3 cm Q8 - 2024 (30 Jan Shift 1) The distance between object and its two times magnified real image as produced by a convex lens is 45 cm . The focal length of the lens used is __ cm . Q9 - 2024 (30 Jan Shift 2) In an experiment to measure the focal length (f) of a convex lens, the magnitude of object distance (x) and the image distance (y) are measured with reference to the focal point of the lens. The ?? - ?? plot is shown in figure. The focal length of the lens is __ cm . Q10 - 2024 (31 Jan Shift 1) The refractive index of a prism with apex angle A is cot?A/2. The angle of minimum deviation is : (1) ?? m = 180 ° - A (2) ?? m = 180 ° - 3 A (3) ?? m = 180 ° - 4 A (4) ?? ?? = 180 ° - 2 A Q11 - 2024 (31 Jan Shift 2) Light from a point source in air falls on a convex curved surface of radius 20 cm and refractive index 1.5 . If the source is located at 100 cm from the convex surface, the image will be formed at cm from the object. Answer Key Q1 (15) ?? 2(1) Q3 (4) Q4 (31) Q5 (1) Q6 (2) Q7 (3) ???? (10) Q9(20) Q10 (4) Q11 (200) Solutions Q1 ?? = 3?? ?? - ?? = 20 cm 2?? = 20 cm ?? = 10 cm 1 (-30) - 1 (-10) = 1 ?? ?? = 15 cm Q2 cot? ?? 2 = sin?( ?? + ?? min 2 ) sin? ?? 2 ? cos? ?? 2 = sin?( ?? + ?? min 2 ) ?? + ?? min 2 = ?? 2 - ?? 2 ?? min = ?? - 2 A Q3 As amount of energy incident on cell is same so current will remain same. Q4 h upp = h 1 ?? 1 + h 2 ?? 2 = 6 3/2 + 6 8/5 = 4 + 15 4 = 31 4 cm Q5 Given R = 30 cm f = R/2 = +15 cm Magnification (m)= ± 1 2 For convex mirror, virtual image is formed for real object. Therefore, m is +ve 1 2 = ?? ?? - ??Read More
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FAQs on Ray Optics: JEE Mains Previous Year Questions (2021-2024) - Physics for JEE Main & Advanced
| 1. What is the difference between real and virtual images in ray optics? |  |
Ans. In ray optics, real images are formed when light rays actually converge at a point after reflection or refraction, while virtual images are formed when the light rays appear to converge at a point but do not actually do so.
| 2. How does a convex lens form an image of an object placed beyond its focal point? | |
Ans. A convex lens forms an image of an object placed beyond its focal point by refracting the light rays in such a way that they converge at a point on the opposite side of the lens. This forms a real and inverted image of the object.
| 3. What is the focal length of a concave mirror and how does it affect the formation of images? | |
Ans. The focal length of a concave mirror is the distance from the mirror to its focal point. A shorter focal length results in a more converging mirror, which produces smaller and more magnified images. A longer focal length produces larger and less magnified images.
| 4. How does the angle of incidence affect the angle of reflection in ray optics? | |
Ans. According to the law of reflection, the angle of incidence is always equal to the angle of reflection. This means that the angle at which a light ray strikes a surface will be equal to the angle at which it reflects off the surface.
| 5. How can one determine the position and nature of an image formed by a concave lens? | |
Ans. The position and nature of an image formed by a concave lens can be determined using the rules of ray tracing. By tracing two or more light rays as they pass through the lens, one can determine where the rays converge and whether the image formed is real or virtual.
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