MCQ Questions for Class 12 Physics with Answers<\/a> are prepared as per the Latest Exam Pattern. Students can solve these Ray Optics and Optical Instruments Class 12 MCQs Questions with Answers and assess their preparation level.<\/p>\nRay Optics and Optical Instruments Class 12 MCQs Questions with Answers<\/h2>\n Solving the Ray Optics and Optical Instruments Multiple Choice Questions of Class 12 Physics Chapter 9 MCQ can be of extreme help as you will be aware of all the concepts. These MCQ Questions on Ray Optics and Optical Instruments Class 12 with answers pave for a quick revision of the Chapter thereby helping you to enhance subject knowledge. Have a glance at the MCQ of Chapter 9 Physics Class 12 and cross-check your answers during preparation.<\/p>\n
I. Choose the correct answer<\/span><\/p>\nQuestion 1. \nAshort pulse of white light is incident from air to a glass slab atnormal incidence. After travelling through the slab, the first colour to emerge is \n(a) blue. \n(b) green. \n(c) violet. \n(d) red.<\/p>\n\nAnswer<\/span><\/summary>\nAnswer: (d) red.<\/p>\n<\/details>\n
\nQuestion 2. \nYou are given four sources of light each one providing a light of a single colour – red, blue, green and yellow. Suppose the angle of refraction for a beam of yellow light corresponding to a particular angle of incidence at the interface of two media is 90\u00b0. Which of the following statements is correct if the source of yellow light is replaced with that of other lights without changing the angle of incidence? \n(a) The beam of red light would undergo total internal reflection. \n(b) The beam of red light would bend towards normal while it gets refracted through the second medium. \n(c) The beam of blue light would undergo total internal reflection. \n(d) The beam of green light would bend away from the normal as it gets refracted through the second medium.<\/p>\n\nAnswer<\/span><\/summary>\nAnswer: (c) The beam of blue light would undergo total internal reflection.<\/p>\n<\/details>\n
\nQuestion 3. \nThe optical density of turpentine is higher than that of water while its mass density is lower. Figure shows a layer of turpentine floating over water in a container. For which one of the four rays incident on turpentine in figure, the path shown is correct? \n \n(a) 1. \n(b) 2 \n(c) 3 \n(d) 4<\/p>\n\nAnswer<\/span><\/summary>\nAnswer: (b) 2<\/p>\n<\/details>\n
\nQuestion 4. \nThere are certain material developed in laboratories which have a negative refractive index (figure). A ray incident from air (medium 1) into such a medium (medium 2) shall follow a path given by \n <\/p>\n\nAnswer<\/span><\/summary>\nAnswer: (a)<\/p>\n<\/details>\n
\nQuestion 5. \nConsider an extended object immersed in water contained in a plane trough. When seen from close to the edge of the trough the object will not look distorted because \n(a) the apparent depth of the points close to the edge are nearer the surface of the water compared to the points away from the edge. \n(b) the angle subtended by the image of the object at the eye is smaller than the actual angle subtended by the object in air. \n(c) some of the points of the object far away from the edge may not be visible because of total internal reflection. \n(d) water in a trough acts as a lens and magnifies the object.<\/p>\n\nAnswer<\/span><\/summary>\nAnswer: (d) water in a trough acts as a lens and magnifies the object.<\/p>\n<\/details>\n
\nQuestion 6. \nA rectangular block of glass ABCD has a refractive index 1.6. A pin is placed midway on the face AB (figure). When observed from the face AD, the pin shall \n \n(a) appear to be near A. \n(b) appear to be near D. \n(c) appear to be at the centre of AD. \n(d) not be seen at all.<\/p>\n\nAnswer<\/span><\/summary>\nAnswer: (d) not be seen at all.<\/p>\n<\/details>\n
\nQuestion 7. \nAn astronomical refractive telescope has an objective of focal length 20 m and an eyepiece of focal length 2 cm. Which one of the following is not possible? \n(a) The length of the telescope tube is 20.02 m. \n(b) The magnification is 1000. \n(c) The image formed is inverted. \n(d) An objective of a larger aperture will increase the brightness and reduce chromatic aberration of the image.<\/p>\n\nAnswer<\/span><\/summary>\nAnswer: (d) An objective of a larger aperture will increase the brightness and reduce chromatic aberration of the image.<\/p>\n<\/details>\n
\nQuestion 8. \nAn object is placed at a distance of 40 cm from a concave mirror of focal length 15 cm. If the object is displaced through a distance of 20 cm towards the mirror, the displacement of the image will be: \n(a) 30 cm away from the mirror \n(b) 36 cm away from the mirror \n(c) 30 cm towards the mirror \n(d) 36 cm towards the mirror<\/p>\n\nAnswer<\/span><\/summary>\nAnswer: (b) 36 cm away from the mirror<\/p>\n<\/details>\n
\nQuestion 9. \nThe refractive index of the material of a prism is \u221a2 and the angle of the prism is 30\u00b0. One of the two refracting surfaces of the prism is made a mirror inwards, by silver coating. A beam of monochromatic light entering the prism from the other face will retrace its path (after reflection from the silvered surface) if its angle of incidence on the prism is: \n(a) 60\u00b0 \n(b) 45\u00b0 \n(c) 30\u00b0 \n(d) zero<\/p>\n\nAnswer<\/span><\/summary>\nAnswer: (b) 45\u00b0<\/p>\n<\/details>\n
\nQuestion 10. \nA diverging lens with magnitude of focal length 25 cm is placed at a distance of 15 cm from a converging lens of magnitude of focal length 20 cm. A beam of parallel light falls on the diverging lens. The final image formed is: \n(a) real and at a distance of 40 cm from the divergent lens \n(b) real and at a distance of 6 cm from the convergent lens \n(c) real and at a distance of 40 cm from convergent lens \n(d) virtual and at a distance of 40 cm from convergent lens.<\/p>\n\nAnswer<\/span><\/summary>\nAnswer: (c) real and at a distance of 40 cm from convergent lens<\/p>\n<\/details>\n
\nII. Fill in the blanks<\/span><\/p>\nQuestion 1. \nThe bouncing back of light when it strikes a smooth or polished surface is called …………….. of light.<\/p>\n\nAnswer<\/span><\/summary>\nAnswer: Reflection<\/p>\n<\/details>\n
\nQuestion 2. \nWhen light is reflected from a polit, surface the angle of incidence is …………… to the angle of reflection.<\/p>\n\nAnswer<\/span><\/summary>\nAnswer: Equal<\/p>\n<\/details>\n
\nQuestion 3. \nThe image formed by a plane mirror shows …………….. inversion.<\/p>\n\nAnswer<\/span><\/summary>\nAnswer: Lateral<\/p>\n<\/details>\n
\nQuestion 4. \nA plane drawn perpendicular to the principal axis and passing through the principal focus is called ………………. plane.<\/p>\n\nAnswer<\/span><\/summary>\nAnswer: Focal<\/p>\n<\/details>\n
\nQuestion 5. \nThe size of the mirror is called its …………………..<\/p>\n\nAnswer<\/span><\/summary>\nAnswer: Aperture<\/p>\n<\/details>\n
\nQuestion 6. \nThe focal length of a spherical mirror is ……………….. its radius of curvature.<\/p>\n\nAnswer<\/span><\/summary>\nAnswer: Half<\/p>\n<\/details>\n
\nQuestion 7. \n…………….. mirror is used as a rear-view mirror in automobiles.<\/p>\n\nAnswer<\/span><\/summary>\nAnswer: Convex<\/p>\n<\/details>\n
\nQuestion 8. \nA real image ………………… be focused on a screen.<\/p>\n\nAnswer<\/span><\/summary>\nAnswer: Can<\/p>\n<\/details>\n
\nQuestion 9. \nA virtual image ……………… be focused or e screen.<\/p>\n\nAnswer<\/span><\/summary>\nAnswer: Cannot<\/p>\n<\/details>\n
\nQuestion 10. \nThe mirror formula is ……………….<\/p>\n\nAnswer<\/span><\/summary>\nAnswer: \\(\\frac { 1 }{f}\\) = \\(\\frac { 1 }{u}\\) + \\(\\frac { 1 }{v}\\)<\/p>\n<\/details>\n
\nQuestion 11. \nThe magnification produced by a spherical mirror is given by …………….<\/p>\n\nAnswer<\/span><\/summary>\nAnswer: m = –\\(\\frac { v }{u}\\)<\/p>\n<\/details>\n
\nQuestion 12. \nIf m is ………………. the image is erect w.r,t the object.<\/p>\n\nAnswer<\/span><\/summary>\nAnswer: Positive<\/p>\n<\/details>\n
\nQuestion 13. \nIf m is ……………….. the image is inverted w.r.t. the object.<\/p>\n\nAnswer<\/span><\/summary>\nAnswer: Negative<\/p>\n<\/details>\n
\nQuestion 14. \nThe basic cause of refraction is change in ………………… of light in going from one medium to another.<\/p>\n\nAnswer<\/span><\/summary>\nAnswer: Velocity<\/p>\n<\/details>\n
\nQuestion 15. \n……………… of light does not change when a ray of light moves from an optically rarer to an optically denser medium.<\/p>\n\nAnswer<\/span><\/summary>\nAnswer: Frequency<\/p>\n<\/details>\n
\nQuestion 16. \nAn air bubble in a jar of water shines brightly is an example of …………………<\/p>\n\nAnswer<\/span><\/summary>\nAnswer: Total Internal Reflection<\/p>\n<\/details>\n
\nQuestion 17. \nFor the same angle of incidence, the angles of refraction in three different mediums A, B and C are 15\u00b0, 25\u00b0 and 35\u00b0 respectively, ……………. medium will the velocity of light be minimum.<\/p>\n\nAnswer<\/span><\/summary>\nAnswer: A<\/p>\n<\/details>\n
\nQuestion 18. \nTotal internal reflection must occur when angle of incidence is more than the …………………<\/p>\n\nAnswer<\/span><\/summary>\nAnswer: Critical angle<\/p>\n<\/details>\n
\nQuestion 19. \nTotal internal reflection will occur when ray of light travels from …………… medium to …………….. medium.<\/p>\n\nAnswer<\/span><\/summary>\nAnswer: Denser, rarer<\/p>\n<\/details>\n
\nQuestion 20. \nDue to refraction, the depth of an optically denser medium appears to be ……………. than its real depth.<\/p>\n\nAnswer<\/span><\/summary>\nAnswer: Less<\/p>\n<\/details>\n
\nQuestion 21. \nDue to refraction of light the sun is seen …………….. minutes before actual sunrise.<\/p>\n\nAnswer<\/span><\/summary>\nAnswer: Two<\/p>\n<\/details>\n
\nQuestion 22. \nA diamond sparkles due to ……………… of light.<\/p>\n\nAnswer<\/span><\/summary>\nAnswer: Total internal reflection<\/p>\n<\/details>\n
\nQuestion 23. \nA ray of light undergoes …………….. twice on passing through a prism.<\/p>\n\nAnswer<\/span><\/summary>\nAnswer: Refraction<\/p>\n<\/details>\n
\nQuestion 24. \nOne dioptre is …………….. of a lens of focal length ……………… metre.<\/p>\n\nAnswer<\/span><\/summary>\nAnswer: Power, 1 m<\/p>\n<\/details>\n
\nQuestion 25. \nThe deviation through a prism is minimum when angle of incidence is equal to angle of ……………..<\/p>\n\nAnswer<\/span><\/summary>\nAnswer: Emergence<\/p>\n<\/details>\n
\nQuestion 26. \nIn the minimum deviation position, the refracted ray in the prism is ………………. to the base of prism.<\/p>\n\nAnswer<\/span><\/summary>\nAnswer: Parallel<\/p>\n<\/details>\n
\nQuestion 27. \nIn the minimum deviation position of a prism the angle of refraction is equal to ………………. angle of prism.<\/p>\n\nAnswer<\/span><\/summary>\nAnswer: Half<\/p>\n<\/details>\n
\nQuestion 28. \nWhite light consists of …………….. colours.<\/p>\n\nAnswer<\/span><\/summary>\nAnswer: Seven<\/p>\n<\/details>\n
\nQuestion 29. \nThe magnification for a concave lens is always ………………..<\/p>\n\nAnswer<\/span><\/summary>\nAnswer: positive<\/p>\n<\/details>\n
\nQuestion 30. \nA convergent lens made of crown glass (refractive index 1.5) has focal length 20cm in air. If it is immersed in a liquid of refractive index 1.60, its focal length will be ……………..<\/p>\n\nAnswer<\/span><\/summary>\nAnswer: -160 cm<\/p>\n<\/details>\n
\nQuestion 31. \nIf two thin lenses of power P1<\/sub> and P2<\/sub> are held in contact then the power of the combination will be ……………..<\/p>\n\nAnswer<\/span><\/summary>\nAnswer: P1<\/sub> + P2<\/sub><\/p>\n<\/details>\n \nQuestion 32. \nIf thin lenses of focal length f1<\/sub>, f2<\/sub>, f3<\/sub> are in contact, the effective focal length of their combination is ………………<\/p>\n\nAnswer<\/span><\/summary>\nAnswer: \\(\\frac { 1 }{f}\\) = \\(\\frac { 1 }{f_1}\\) + \\(\\frac { 1 }{f_2}\\) + \\(\\frac { 1 }{f_3}\\)<\/p>\n<\/details>\n
\nQuestion 33. \nThe total magnification m of the combination of three lenses of magnification m1<\/sub>, m2<\/sub> and m3<\/sub> is ………………..<\/p>\n\nAnswer<\/span><\/summary>\nAnswer: m1<\/sub> \u00d7 m2<\/sub> \u00d7 m3<\/sub><\/p>\n<\/details>\n \nQuestion 34. \nThe magnifying power of a simple microscope is ………………. if f is small.<\/p>\n\nAnswer<\/span><\/summary>\nAnswer: Large<\/p>\n<\/details>\n
\nQuestion 35. \nIn Cassegrainian telescope, a large aperture …………………. mirror & a small aperture ……………… mirror is used.<\/p>\n\nAnswer<\/span><\/summary>\nAnswer: Concave, convex<\/p>\n<\/details>\n
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Students are advised to practice the NCERT MCQ Questions for Class 12 Physics Chapter 9 Ray Optics and Optical Instruments with Answers Pdf free download is available here. MCQ Questions for Class 12 Physics with Answers are prepared as per the Latest Exam Pattern. Students can solve these Ray Optics and Optical Instruments Class 12 …<\/p>\n
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