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IIT JAM 2006 : Physics

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JAM 2006 PHYSICS TEST PAPER 1 Useful Data 1. Speed of light in free space, c = 3 x 108 m s-1 2. Planck s constant, h = 6.6 x 10-34 J s 3. Electron charge, e = 1.6 x 10-19 C 4. Electron mass, me = 9.1 x 10-31 kg 5. Use e3 20 NOTE: Attempt ALL the 25 questions. Questions 1-15 (objective questions) carry six marks each and questions 16-25 (subjective questions) carry twenty one marks each. Write the answers to the objective questions in the Answer Table for Objective Questions provided on page 12 only. 1. In a crystalline solid, the energy band structure (E-k relation) for an electron of mass m h 2 k (2k 3) is given by E = . The effective mass of the electron in the crystal is 2m (A) (B) 2 m 3 (C) m 2 (D) 2. m 2m Two electric dipoles P1 and P2 are placed at (0, 0, 0) and (1, 0, 0) respectively, with both of them pointing in the +z direction. Without changing the orientations of the dipoles, P2 is moved to (0, 2, 0). The ratio of the electrostatic potential energy of the dipoles after moving to that before moving is (A) 1 16 (B) 1 2 (C) 1 4 (D) 1 8 2 3. The truth table for the given circuit is J Q K K Q 0 1 0 1 1 0 1 0 J K Q 0 0 1 1 0 1 0 1 1 0 0 1 J K Q 0 0 1 1 (B) J 0 0 1 1 (A) 0 1 0 1 0 1 0 1 J K Q 0 0 1 1 0 1 0 1 0 1 1 0 (C) (D) 3 4. At a given point in space the total light wave is composed of three phasors P1 = a , a a P2 = ei and P3 = e i . The intensity of light at this point is 2 2 (A) 4 a 2 cos 2 2 (B) 4 a 2 cos 4 2 (C) a 2 cos 2 ( ) (D) 4 a 2 cos 2 (2 ) 5. A small magnetic dipole is kept at the origin in the x-y plane. One wire L1 is located at z = a in the x-z plane with a current I flowing in the positive x direction. Another wire L2 is at z = + a in y-z plane with the same current I as in L1, flowing in the positive y direction. The angle made by the magnetic dipole with respect to the positive x-axis is (A) 225 (B) 120 (C) 45 (D) 270 6. The ratio of the inner radii of two glass tubes of same length is 2 . A fluid of viscosity 8.0 cP flows through the first tube, and another fluid of viscosity 0.8 cP flows through the second one when equal pressure difference is applied across both of them. The ratio of the flow rate in the first tube to that in the second tube is \ 7. (A) (B) (C) (D) 1.6 10 2 2 0.4 The relation between angular frequency and wave number k for given type of waves is 2 = k + k 3 . The wave number k0 for which the phase velocity equals the group velocity is (A) 3 (B) 1 3 (C) 4 (D) 8. 1 2 A neutron of mass mn = 10 27 kg is moving inside a nucleus. Assume the nucleus to be a cubical box of size 10 14 m with impenetrable walls. Take h 10 34 Js and 1MeV 10 13 J. An estimate of the energy in MeV of the neutron is (A) (B) (C) (D) 9. A spring-mass system has undamped natural angular frequency 0 = 100 rad s-1. The solution x(t) at critical damping is given by x(t ) = x0 (1 + 0 t ) exp( 0 t ) , where x0 is a constant. The system experiences the maximum damping force at time (A) (B) (C) (D) 0.01 s 0.1 s 0.0 1 s 0.1 s In an intrinsic semiconductor, the free carrier concentration n (in cm-3) varies with temperature T (in Kelvin) as shown in the figure below. The band gap of the semiconductor is (use Boltzmann constant k B = 8.625 10 5 eV K-1) 36.5 35.5 ln (n ) 10. 80 MeV 1 MeV 8 8 MeV 1 MeV 80 34.5 33.5 32.5 2 (A) (B) (C) (D) 3 1000/T 1.44 eV 0.72 eV 1.38 eV 0.69 eV 5 11. r E ( x, y, z, t ) = A(3 i + 4 ) exp[i ( t k z )] represents an electromagnetic wave. Possible j directions of the fast axis of a quarter wave plate which converts this wave into a circularly polarized wave are (A) 1 2 [7 i + j ] and [ ] [ ] [ 1 i +7 j 2 [ (B) (C) 1 1 3 i 4 and j 4i +3 j 2 2 (D) 12. 1 3i + 4 j 2 1 j 7i 2 [ 1 4i 3 j 2 [ and [ 1 i +7 j 2 ] ] ] A particle of rest mass m0 is moving uniformly in a straight line with relativistic velocity c , where c is the velocity of light in vacuum and 0 < < 1. The phase velocity of the de Broglie wave associated with the particle is (A) c (B) c (C) (D) 13. ] and ] c c 2 Electrons of energy E coming in from x = impinge upon a potential barrier of width 2a and height V0 centered at the origin with V0 > E , as shown in the figure below. Let k= 2m (V0 E ) . In the region a x a , the wave function for the electrons is a h linear combination of V V0 -a a x 6 (A) (B) (C) (D) 14. 15. e k x and e k x e i k x and e k x e i k x and e i k x e i k x and e k x A solid melts into a liquid via first order phase transition. The relationship between the pressure P and the temperature T of the phase transition is P = 2T + P0 , where P0 is a constant. The entropy change associated with the phase transition is 1.0 J mole-1 K-1. The dP Clausius-Clapeyron equation for the latent heat is L = T v. Here v = vliquid vsolid dT is the change in molar volume at the phase transition. The correct statement relating the values of the volumes is (A) vliquid = vsolid (B) vliquid = vsolid 1 1 (C) vliquid = vsolid 2 (D) vliquid = vsolid + 2 a The symmetric part of P = (a 2 b ) is b (A) (B) a (a 2) b (C) a (a 1) b(a 1) b(a 1) b2 (D) 16. a2 2 ba 1 a (a 2) b(a 1) b(a 1) b2 b b2 Consider a Body Centered Cubic (BCC) crystal with lattice constant a . Determine (a) (b) 17. ba 1 2 b 2 the Miller indices for the (1, 0, 0) plane, the number of atoms per unit area in the (1, 1, 1) plane. [9] [12] a2 The equation of state of a gas is P V = n R T , while during an adiabatic process V the gas obeys P V = K , where a and K are positive constants. All other symbols have their usual meaning. Find the work done by the gas when it is expanded first isothermally P from (P, V) to (P1, 2V) and then adiabatically from (P1, 2V) to ( 1 , V1), where P1 < P. 2 [21] 7 18. A conducting sphere of radius RA has a charge Q. It is surrounded by a dielectric spherical shell of inner radius RA and outer radius RB (as shown in the figure below) having electrical permittivity (r ) = 0 r . B (a) (b) Find the surface bound charge density at r = RA. Find the total electrostatic energy stored in the dielectric (region B). [12] [9] RA A B RB B 19. For the transistor circuit shown below, evaluate VE, RB and RC, given IC = 1 mA, VCE = 3.8 V, VBE = 0.7 V and VCC = 10 V. Use the approximation IC IE. [21] VCC = 10 V RB 24 k 20. VC VE 1.3 k r j For the vector field V = x z 2 i y z 2 + z x 2 y 2 k , ( (a) (b) 21. RC ) r calculate the volume integral of the divergence of V over the region defined by a x a , b y b and 0 z c . [12] r Calculate the flux of V out of the region through the surface at z = c. Hence deduce the net flux through the rest of the boundary of the region. [9] The spherical surface of a plano-convex lens of radius of curvature R = 1m is gently placed on a flat plate. The space between them is filled with a transparent liquid of refractive index 1.55. The refractive indices of the lens and the flat plate are 1.5 and 1.6 8 respectively. The radius of the sixteenth dark Newton s ring in the reflected light of wavelength is found to be 5 mm. (a) (b) 22. Determine the wavelength (in microns) of the light. [12] Now the transparent liquid is completely removed from the space between the lens and the flat plate. Find the radius (in mm) of the twentieth dark ring in the reflected light after this change. [9] A resistor of 1 k and an inductor of 5 mH are connected in series with a battery of emf 4 V through a switch. The switch is closed at time t = 0. In the following, you may use e 3 20 . (a) (b) 23. Find the current flowing in the circuit at t = 15 micro-second. [9] Find the heat dissipated through the resistor during the first 15 micro-second. [12] A photon of energy Eph collides with an electron at rest and gets scattered at an angle 60 with respect to the direction of the incident photon. The ratio of the relativistic kinetic energy T of the recoiled electron and the incident photon energy Eph is 0.05. (a) Determine the wavelength of the incident photon in terms of the Compton h wavelength c = m c , where h, me, c are Planck s constant, electron rest mass e and velocity of light respectively. [12] (b) 24. [9] r 3 A particle moves in a plane with velocity v = v r r + v such that vr = v . The time 4 r dependence of the magnitude of the velocity | v | = 5t. It is given that r = 1, = 0 and v r > 0 at t = 0. (In the following, you may use e 3 20 .) (a) (b) 25. What is the total energy Ee of the recoiled electron in units of its rest mass ? Determine the trajectory r( ) of the particle. At what time will become 4 radian? [9] [12] A body of mass 1 kg moves under the influence of a central force, with a potential energy exp( 3r / 2) function V (r ) = Joule, where r is in meters. It is found to move in a 5r 2 circular orbit of radius r = 2 m. (In the following, you may use e 3 20 ). (a) (b) Find its angular momentum L and total energy E. [12] A piece of mass m1 = 0.5 kg breaks off suddenly from the body and begins to fall radially inwards with velocity v = 10 cm s-1. What are the values of angular momentum L2 and total energy E2 of the remaining piece, assuming that the potential energy function remains the same? [9] 9

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