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Page 1 DIRECTIONS (Q.1-Q.21) : There are 21 multiple choice questions. Each question has 4 choices (a), (b), (c) and (d), out of which ONLY ONE choice is correct. Q.1 Energy of a a-particle, having de broglie wavelength of 0.004 Å is approximately. (a) 1275 eV (b) 1200 KeV (c) 1200 MeV (d) 1200 GeV Q.2 Velocity of a proton is c/20. Associated de-Broglie wavelength is (Take h = 6.626 × 10 –34 J–s) (a) 2.64 × 10 –24 mm (b) 2.64 × 10 –24 cm (c) 2.64 × 10 –14 Å (d) 2.64 × 10 –14 m Q.3 One electron & one proton is accelerated by equal potential. Ratio of their de-Broglie wavelengths is- (a) p e m m (b) e p m m (c) p e m m (d) 1 Q.4 de-Broglie wavelength of an electron is 10 Å then velocity will be- (a) 7.2 × 10 7 m/s (b) 7.2 × 10 6 m/s (c) 7.2 × 10 5 m/s (d) 7.2 × 10 4 m/s Q.5 One electron & one proton have equal energies then ratio of associated de-Broglie wavelength will be- (a) 1 : (1836) 2 (b) 1836 :1 (c) 1836 : 1 (d) (1836) 2 : 1 Page 2 DIRECTIONS (Q.1-Q.21) : There are 21 multiple choice questions. Each question has 4 choices (a), (b), (c) and (d), out of which ONLY ONE choice is correct. Q.1 Energy of a a-particle, having de broglie wavelength of 0.004 Å is approximately. (a) 1275 eV (b) 1200 KeV (c) 1200 MeV (d) 1200 GeV Q.2 Velocity of a proton is c/20. Associated de-Broglie wavelength is (Take h = 6.626 × 10 –34 J–s) (a) 2.64 × 10 –24 mm (b) 2.64 × 10 –24 cm (c) 2.64 × 10 –14 Å (d) 2.64 × 10 –14 m Q.3 One electron & one proton is accelerated by equal potential. Ratio of their de-Broglie wavelengths is- (a) p e m m (b) e p m m (c) p e m m (d) 1 Q.4 de-Broglie wavelength of an electron is 10 Å then velocity will be- (a) 7.2 × 10 7 m/s (b) 7.2 × 10 6 m/s (c) 7.2 × 10 5 m/s (d) 7.2 × 10 4 m/s Q.5 One electron & one proton have equal energies then ratio of associated de-Broglie wavelength will be- (a) 1 : (1836) 2 (b) 1836 :1 (c) 1836 : 1 (d) (1836) 2 : 1 2 DPP/ P 54 Q.6 The ratio of wavelength of deutron & proton accelerated by an equal potential is (a) 1 2 (b) 2 1 (c) 1 2 (d) 2 1 Q.7 In photoelectric effect if intensity of light is doubled then maximum kinetic energy of photoelectrons will become (a) Double (b) Half (c) Four time (d) No change Q.8 Quantum nature of light is explained by which of the following phenomenon? (a) Huygen wave theory (b) Photoelectric effect (c) Maxwell electromagnetic theory (d) de- Broglie theory Q.9 From rest an electron is accelerated between two such points which has potential 20 & 40 volts respectively. Associated de-Broglie wavelength of electron is- (a) 0.75 Å (b) 7.5 Å (c) 2.75 Å (d) 2.75 m Q.10An electron microscope uses 40 keV electrons. Find its resolving limit on the assumption that it is equal to the wavelength of the electron- (a) 0.61 Å (b) 0.6 Å (c) 0.06 Å (d) 0.061 Å Q.11 A hydrogen atom moving at a speed v absorbs a photon of wavelength 122 nm and stops. Find the value of v. (Mass of hydrogen atom = 1.67 × 10 –27 kg) (a) 3.5 m/s (b) 32.5 m/s (c) 3.05 m/s (d) 3.25 m/s Q.12 The de-Broglie wavelength of an electron is 0.2 Å. Calculate the potential difference (approximate) required to retard it to rest- (a) 3.76 × 10 –3 V (b) 3.76 × 10 3 V (c) 3.76 × 10 3 eV (d) 376.5 V Q.13A photon and an electron have equal energy E. l photon / l electron is proportional to (a) E (b) 1 E (c) 1 E (d) Does not depend upon E. Q.14In a photoemissive cell with exciting wavelength l, the fastest electron has speed v. If the exciting wavelength is changed to 3l/4, the speed of the fastest emitted electron will be (a) v (3/4) 1/2 (b) v (4/3) 1/2 (c) Less than v (4/3) 1/2 (d) Greater than v (4/3) 1/2 Q.15Which of the following figure repesents variation of particle momentum and the associated de-Broglie wavelength? (a) l p (b) p l (c) p l (d) p l Q.16 The work function for the surface of aluminium is 4.2 eV . What will be the wavelength of that incident light for which the stopping potential will be zero. (h » 6.6 × 10 –34 J–s e » 1.6 × 10 –19 C) (a) 2496 Å (b) 2946 × 10 –7 m (c) 2649 Å (d) 2946 Å Page 3 DIRECTIONS (Q.1-Q.21) : There are 21 multiple choice questions. Each question has 4 choices (a), (b), (c) and (d), out of which ONLY ONE choice is correct. Q.1 Energy of a a-particle, having de broglie wavelength of 0.004 Å is approximately. (a) 1275 eV (b) 1200 KeV (c) 1200 MeV (d) 1200 GeV Q.2 Velocity of a proton is c/20. Associated de-Broglie wavelength is (Take h = 6.626 × 10 –34 J–s) (a) 2.64 × 10 –24 mm (b) 2.64 × 10 –24 cm (c) 2.64 × 10 –14 Å (d) 2.64 × 10 –14 m Q.3 One electron & one proton is accelerated by equal potential. Ratio of their de-Broglie wavelengths is- (a) p e m m (b) e p m m (c) p e m m (d) 1 Q.4 de-Broglie wavelength of an electron is 10 Å then velocity will be- (a) 7.2 × 10 7 m/s (b) 7.2 × 10 6 m/s (c) 7.2 × 10 5 m/s (d) 7.2 × 10 4 m/s Q.5 One electron & one proton have equal energies then ratio of associated de-Broglie wavelength will be- (a) 1 : (1836) 2 (b) 1836 :1 (c) 1836 : 1 (d) (1836) 2 : 1 2 DPP/ P 54 Q.6 The ratio of wavelength of deutron & proton accelerated by an equal potential is (a) 1 2 (b) 2 1 (c) 1 2 (d) 2 1 Q.7 In photoelectric effect if intensity of light is doubled then maximum kinetic energy of photoelectrons will become (a) Double (b) Half (c) Four time (d) No change Q.8 Quantum nature of light is explained by which of the following phenomenon? (a) Huygen wave theory (b) Photoelectric effect (c) Maxwell electromagnetic theory (d) de- Broglie theory Q.9 From rest an electron is accelerated between two such points which has potential 20 & 40 volts respectively. Associated de-Broglie wavelength of electron is- (a) 0.75 Å (b) 7.5 Å (c) 2.75 Å (d) 2.75 m Q.10An electron microscope uses 40 keV electrons. Find its resolving limit on the assumption that it is equal to the wavelength of the electron- (a) 0.61 Å (b) 0.6 Å (c) 0.06 Å (d) 0.061 Å Q.11 A hydrogen atom moving at a speed v absorbs a photon of wavelength 122 nm and stops. Find the value of v. (Mass of hydrogen atom = 1.67 × 10 –27 kg) (a) 3.5 m/s (b) 32.5 m/s (c) 3.05 m/s (d) 3.25 m/s Q.12 The de-Broglie wavelength of an electron is 0.2 Å. Calculate the potential difference (approximate) required to retard it to rest- (a) 3.76 × 10 –3 V (b) 3.76 × 10 3 V (c) 3.76 × 10 3 eV (d) 376.5 V Q.13A photon and an electron have equal energy E. l photon / l electron is proportional to (a) E (b) 1 E (c) 1 E (d) Does not depend upon E. Q.14In a photoemissive cell with exciting wavelength l, the fastest electron has speed v. If the exciting wavelength is changed to 3l/4, the speed of the fastest emitted electron will be (a) v (3/4) 1/2 (b) v (4/3) 1/2 (c) Less than v (4/3) 1/2 (d) Greater than v (4/3) 1/2 Q.15Which of the following figure repesents variation of particle momentum and the associated de-Broglie wavelength? (a) l p (b) p l (c) p l (d) p l Q.16 The work function for the surface of aluminium is 4.2 eV . What will be the wavelength of that incident light for which the stopping potential will be zero. (h » 6.6 × 10 –34 J–s e » 1.6 × 10 –19 C) (a) 2496 Å (b) 2946 × 10 –7 m (c) 2649 Å (d) 2946 Å DPP/ P 54 3 Q.17 Slope of V 0 – n curve is- (where V 0 = Stopping potential and n = frequency) (a)e (b) h e (c) f 0 (d)h Q.18 A radio station is transmitting waves of wavelength 300 m. If diffracting power of transmitter is 10 kW , then numbers of photons diffracted per second is- (a) 1.5 × 10 35 (b) 1.5 × 10 31 (c) 1.5 × 10 29 (d) 1.5 × 10 33 Q.19Light of wavelength 3320 Å is incident on metal surface (work function = 1.07 eV). To stop emission of photo electron, retarding potential required to be (Take hc » 12420 eV – Å) (a) 3.74 V (b) 2.67 V (c) 1.07 V (d) 4.81 V Q.20 The figure shows the variation of photocurrent with anode potential for a photo-sensitive surface for three different radiations. Let I a , I b and I c be the intensities and f a , f b and f c be the frequencies for the curves a, b and c respectively. Then (a) f a = f b and I a ¹ I b (b) f a = f c and I a = I c (c) f a = f b and I a = I b O c b a (d) f a = f b and I a = I c Q.21 An electromagnetic radiation of frequency 3 × 10 15 cycles per second falls on a photo electric surface whose work function is 4.0 eV. Find out the maximum velocity of the photo electrons emitted by the surface- (a) 13.4 × 10 –19 m/s (b) 19.8 × 10 –19 m/s (c) 1.73 × 10 6 m/s (d) None DIRECTIONS (Q.22-Q.24) : In the following questions, more than one of the answers given are correct. Select the correct answers and mark it according to the following codes: Codes : (a) 1, 2 and 3 are correct (b) 1 and 2 are correct (c) 2 and 4 are correct (d) 1 and 3 are correct Q.22Ultraviolet light of wavelength 280 nm is used in an experiment on photo electric effect with lithium (f = 2.5 eV) cathode. (1) The maximum kinetic energy is 1 .9 eV (2) The stopping potential is1.9 V (3) The maximum kinetic energy is 4.4 V (4) The stopping potential is 4.4 eV Q.23The separation between Bragg’s planes in a crystal is 10 Å. Then the wavelength of those X-rays which can be diffracted by this crystal is- (1) 5 Å (2) 10 Å (3) 20 Å (4) 25 Å Q.24Electrons are accelerated in television tubes through potential difference of about 10 KV. (1) The lowest wavelength of the emitted X-rays is 12.4Å (2) The lowest wavelength of the emitted X-rays is 1.24Å (3) The highest frequency of the emitted X-rays is 2.4 × 10 8 Hz (4) The highest frequency of the emitted X-rays is 2.4 × 10 18 Hz DIRECTIONS (Q.25-Q.27) : Read the passage given below and answer the questions that follows : A physicist wishes to eject electrons by shining light on a metal surface. The light source emits light of wavelength of 450 nm. The table lists the only available metals and their work functions. Metal W 0 (eV) Barium 2.5 Lithium 2.3 Tantalum 4.2 Tungsten 4.5 Q.25Which metal(s) can be used to produce electrons by the photoelectric effect from given source of light ? (a) Barium only (b) Barium or lithium (c) Lithium, tantalum or tungsten (d) Tungsten or tantalum Page 4 DIRECTIONS (Q.1-Q.21) : There are 21 multiple choice questions. Each question has 4 choices (a), (b), (c) and (d), out of which ONLY ONE choice is correct. Q.1 Energy of a a-particle, having de broglie wavelength of 0.004 Å is approximately. (a) 1275 eV (b) 1200 KeV (c) 1200 MeV (d) 1200 GeV Q.2 Velocity of a proton is c/20. Associated de-Broglie wavelength is (Take h = 6.626 × 10 –34 J–s) (a) 2.64 × 10 –24 mm (b) 2.64 × 10 –24 cm (c) 2.64 × 10 –14 Å (d) 2.64 × 10 –14 m Q.3 One electron & one proton is accelerated by equal potential. Ratio of their de-Broglie wavelengths is- (a) p e m m (b) e p m m (c) p e m m (d) 1 Q.4 de-Broglie wavelength of an electron is 10 Å then velocity will be- (a) 7.2 × 10 7 m/s (b) 7.2 × 10 6 m/s (c) 7.2 × 10 5 m/s (d) 7.2 × 10 4 m/s Q.5 One electron & one proton have equal energies then ratio of associated de-Broglie wavelength will be- (a) 1 : (1836) 2 (b) 1836 :1 (c) 1836 : 1 (d) (1836) 2 : 1 2 DPP/ P 54 Q.6 The ratio of wavelength of deutron & proton accelerated by an equal potential is (a) 1 2 (b) 2 1 (c) 1 2 (d) 2 1 Q.7 In photoelectric effect if intensity of light is doubled then maximum kinetic energy of photoelectrons will become (a) Double (b) Half (c) Four time (d) No change Q.8 Quantum nature of light is explained by which of the following phenomenon? (a) Huygen wave theory (b) Photoelectric effect (c) Maxwell electromagnetic theory (d) de- Broglie theory Q.9 From rest an electron is accelerated between two such points which has potential 20 & 40 volts respectively. Associated de-Broglie wavelength of electron is- (a) 0.75 Å (b) 7.5 Å (c) 2.75 Å (d) 2.75 m Q.10An electron microscope uses 40 keV electrons. Find its resolving limit on the assumption that it is equal to the wavelength of the electron- (a) 0.61 Å (b) 0.6 Å (c) 0.06 Å (d) 0.061 Å Q.11 A hydrogen atom moving at a speed v absorbs a photon of wavelength 122 nm and stops. Find the value of v. (Mass of hydrogen atom = 1.67 × 10 –27 kg) (a) 3.5 m/s (b) 32.5 m/s (c) 3.05 m/s (d) 3.25 m/s Q.12 The de-Broglie wavelength of an electron is 0.2 Å. Calculate the potential difference (approximate) required to retard it to rest- (a) 3.76 × 10 –3 V (b) 3.76 × 10 3 V (c) 3.76 × 10 3 eV (d) 376.5 V Q.13A photon and an electron have equal energy E. l photon / l electron is proportional to (a) E (b) 1 E (c) 1 E (d) Does not depend upon E. Q.14In a photoemissive cell with exciting wavelength l, the fastest electron has speed v. If the exciting wavelength is changed to 3l/4, the speed of the fastest emitted electron will be (a) v (3/4) 1/2 (b) v (4/3) 1/2 (c) Less than v (4/3) 1/2 (d) Greater than v (4/3) 1/2 Q.15Which of the following figure repesents variation of particle momentum and the associated de-Broglie wavelength? (a) l p (b) p l (c) p l (d) p l Q.16 The work function for the surface of aluminium is 4.2 eV . What will be the wavelength of that incident light for which the stopping potential will be zero. (h » 6.6 × 10 –34 J–s e » 1.6 × 10 –19 C) (a) 2496 Å (b) 2946 × 10 –7 m (c) 2649 Å (d) 2946 Å DPP/ P 54 3 Q.17 Slope of V 0 – n curve is- (where V 0 = Stopping potential and n = frequency) (a)e (b) h e (c) f 0 (d)h Q.18 A radio station is transmitting waves of wavelength 300 m. If diffracting power of transmitter is 10 kW , then numbers of photons diffracted per second is- (a) 1.5 × 10 35 (b) 1.5 × 10 31 (c) 1.5 × 10 29 (d) 1.5 × 10 33 Q.19Light of wavelength 3320 Å is incident on metal surface (work function = 1.07 eV). To stop emission of photo electron, retarding potential required to be (Take hc » 12420 eV – Å) (a) 3.74 V (b) 2.67 V (c) 1.07 V (d) 4.81 V Q.20 The figure shows the variation of photocurrent with anode potential for a photo-sensitive surface for three different radiations. Let I a , I b and I c be the intensities and f a , f b and f c be the frequencies for the curves a, b and c respectively. Then (a) f a = f b and I a ¹ I b (b) f a = f c and I a = I c (c) f a = f b and I a = I b O c b a (d) f a = f b and I a = I c Q.21 An electromagnetic radiation of frequency 3 × 10 15 cycles per second falls on a photo electric surface whose work function is 4.0 eV. Find out the maximum velocity of the photo electrons emitted by the surface- (a) 13.4 × 10 –19 m/s (b) 19.8 × 10 –19 m/s (c) 1.73 × 10 6 m/s (d) None DIRECTIONS (Q.22-Q.24) : In the following questions, more than one of the answers given are correct. Select the correct answers and mark it according to the following codes: Codes : (a) 1, 2 and 3 are correct (b) 1 and 2 are correct (c) 2 and 4 are correct (d) 1 and 3 are correct Q.22Ultraviolet light of wavelength 280 nm is used in an experiment on photo electric effect with lithium (f = 2.5 eV) cathode. (1) The maximum kinetic energy is 1 .9 eV (2) The stopping potential is1.9 V (3) The maximum kinetic energy is 4.4 V (4) The stopping potential is 4.4 eV Q.23The separation between Bragg’s planes in a crystal is 10 Å. Then the wavelength of those X-rays which can be diffracted by this crystal is- (1) 5 Å (2) 10 Å (3) 20 Å (4) 25 Å Q.24Electrons are accelerated in television tubes through potential difference of about 10 KV. (1) The lowest wavelength of the emitted X-rays is 12.4Å (2) The lowest wavelength of the emitted X-rays is 1.24Å (3) The highest frequency of the emitted X-rays is 2.4 × 10 8 Hz (4) The highest frequency of the emitted X-rays is 2.4 × 10 18 Hz DIRECTIONS (Q.25-Q.27) : Read the passage given below and answer the questions that follows : A physicist wishes to eject electrons by shining light on a metal surface. The light source emits light of wavelength of 450 nm. The table lists the only available metals and their work functions. Metal W 0 (eV) Barium 2.5 Lithium 2.3 Tantalum 4.2 Tungsten 4.5 Q.25Which metal(s) can be used to produce electrons by the photoelectric effect from given source of light ? (a) Barium only (b) Barium or lithium (c) Lithium, tantalum or tungsten (d) Tungsten or tantalum 4 DPP/ P 54 Q.26Which option correctly identifies the metal that will produce the most energetic electrons and their energies ? (a) Lithium, 0.45 eV (b) Tungsten, 1.75 eV (c) Lithium, 2.30 eV (d) Tungsten, 2.75 eV Q.27 Suppose photoelectric experiment is done separately with these metals with light of wavelength 450 nm. The maximum magnitude of stopping potential amongst all the metals is- (a) 2.75 volt (b) 4.5 volt (c) 0.45 volt (d) 0.25 volt DIRECTIONS (Q. 28-Q.30) : Each of these questions contains two statements: Statement-1 (Assertion) and Statement-2 (Reason). Each of these questions has four alternative choices, only one of which is the correct answer. You have to select the correct choice. (a) Statement-1 is True, Statement-2 is True; Statement-2 is a correct explanation for Statement-1. (b) Statement-1 is True, Statement-2 is True; Statement-2 is NOT a correct explanation for Statement-1. (c) Statement -1 is False, Statement-2 is True. (d) Statement -1 is True, Statement-2 is False. Q.28 Statement -1 : Mass of moving photon varies directly as the wavelength. Statement -2 : Energy of the particle = Mass × (Speed of light) 2 Q.29 Statement -1 : Photosensitivity of a metal is large if its work function is small. Statement -2 : Work function = hf 0 where f 0 is the threshold frequency. Q.30 Statement -1 : The de-Broglie wavelength of a molecule varies inversely as the square root of temperature. Statement -2 : The root mean square velocity of the molecule is proportional to square root of absolute temperature.Read More
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