# AIPMT Online Test Series – Physics

Jan 28 • Medical Sample Papers • 3820 Views • 3 Comments on AIPMT Online Test Series – Physics

The AIPMT (All India Pre Medical Test)Prelims exam is a national level entrance exam conducted by Central Board of Secondary Education (CBSE), Delhi. This exam is conducted for students to get admission to MBBS and BDS courses in most of the medical colleges across the country. Students appearing for this exam are tested on the subjects- Physics, Chemistry, and Biology.

This exam consists of two level. One is Preliminary conducted usually on 1st Sunday of the April month and the second is Mains conducted in the month of May.

All the students who want to take admission to MBBS & BDS courses they have to do hard work for the entrance exam AIPMT. The best score in the exam provides them a good medical college. AIPMT ONLINE TEST SERIES-PHYSICS :
1. A square current carrying loop is suspended in a uniform magnetic field acting in the plane of the loop. If the force on one arm of the loop is , the net force on the remaining three arms of the loops is :
1) -3
2)1
3) 3
4) -1

2. A particle has initial velocity (3î + 4ĵ) and has acceleration (0.4î + 0.3ĵ). Its speed after 10 s
is :
1) 8.5 units
2) 10 units
3) 7 units
4) 7√2 units

3. The total radiant energy per unit area, normal to the direction of incidence, received at a distance R from the centre of a star of radius r, whose outer surface radiates as a black body at a temperature T K is given by
(Where σ is Stefan’s Constant)
1) σr4T4/r4
2) 4πσr2T4/R2
3) σr2T4/R2
4) σr2T4/4πr2

4. A thin ring of radius R meter has charge q coulomb uniformly spread on it. The ring rotates about its axis with a constant frequency of f revolutions/ s. The value of magnetic induction in Wb/m2 at the centre of the ring is:
1) µ0q/2fR
2) µ0qf/2R
3) µ0qf/2Πr
4) µ0q/2πfR

5. A ball moving with velocity 2 m/s collides head on with another stationary ball of double the mass. If the coefficient of restitution is 0.5, then their velocities (in m/s) after collision will be:
1) 1, 0.5
2) 0, 2
3) 0, 1
4) 1, 1

6. A vibration magnetometer placed in magnetic meridian has a small bar magnet. The magnet executes oscillations with a time period of 2 sec in earth’s horizontal magnetic field of 24 microtesla. When a horizontal field of 18 microtesla is produced opposite to earth’s field by placing a current carrying wire, the new time period of magnet will be
1) 3s
2) 4s
3) 1s
4) 2s

7. Which one of the following statement is FALSE?
1) Minority cariers in a p-type semiconductor are electrons
2) The resistance of intrinsic semiconductor decreases with increase of temperature
3) Pure Si doped with trivalent impurities gives a p-type semiconductor
4) Majority carriers in a n-type semiconductor are holes

8. A particle of mass M is situated at the centre of a spherical shell of same mass and radius a. The gravitational potential at a point situated at a/2 distance from the centre, will be:
1) -(GM/a)
2) -(4GM/a)
3) -(3GM/a)
4) -(2GM/a)

9. Which of the following statement is false for the properties of electromagnetic waves?
1) Both electric and magnetic field vectors are parallel to each other perpendicular to the direction of propagation of wave
2) These waves do not require any material medium for propagation
3) Both electric and magnetic field vectors attain the maxima and minima at the same place and same time
4) The energy in electromagnetic wave is divided equally between electric and magnetic vectors

10. The radii of circular orbits of two satellites A and B of the earth, are 4R and R, respectively. If the speed of satellite A is 3V, then the speed of satellite B will be :
1) 12V
2) 3V/2
3) 3V/4
4) 6V

11. The device that can act as a complete electronic circuit is :
1) Junction transistor
2) Zener diode
3) Junction diode
4) Integrated circuit

12. A ray of light travelling in a transparent medium of refractive index µ, falls on a surface separating the medium from air at an angle of incidence of 45°. for which of the following value of µ the ray can undergo total internal reflection ?
1) µ = 1.50
2) µ = 1.25
3) µ = 1.33
4) µ = 1.10

14. A lens having focal lengh f and aperture of diameter d forms an image of intensity I. Aperture of diameter (d/2) in central region of lens is covered by a black paper. Focal length of lens and intensity of image now will be respectively
1) f and (3I/4)
2) (f/2) and (I/2)
3) f and (I/4)
4) (3f/4) and (I/2)

15. A series combination of n1 capacitors, each of value C1 is charged by a source of potential difference 4V. When another parallel combination of n2 capacitors, each of value C2 is charged by a source of potential difference V, it has the same (total) energy stored in it, as the first combination has. The value of C2 in terms of C1, is then :
1) 2(n2/n1)C1
2) (16C1/n1n2)
3) (2C1/n1n2)
4) 16(n2/n1)C1

16. A source S1 is producing, 1015 photons per second of wavelength 5000Å. Another source S2 is producing 1.02 × 1015 photons per second of wavelength 5100Å. Then (power of S2)/(power of S1) is equal to
1) 1.04
2) 0.98
3) 1.00
4) 1.02

17. To get an output Y = 1 from the circuit shown below, the input must be :
1) A-1 B-0 C-1
2) A-1 B-0 C-0
3) A-0 B-1 C-0
4) A-0 B-0 C-1

18. Two particles which are initially at rest, move towards each other under the action of their internal attraction. If their speeds are ν and 2ν at any instant, then the speed of centre of mass of the system will be
1) 1.5ν
2) Ν
3) 2ν
4) Zero

19. Which one of the following bonds produces a solid that reflects light in the visible region and whose electrical conductivity decreases with temperature and has high melting point?
1) ionic bonding
2) covalent bonding
3) metallic bonding
4) van der Waal’s bonding

20. A potentiometer or circuit is set up as shown. The potential gradient, across the potentiometer wire, is k volt/ cm and the ammeter, present in the circuit, reads 10A when two way key is switched off. The balance points, when the key between the terminals (i) 1 and 2 (ii) 1 and 3, is plugged in, are found to be at lengths l1 cm and l2 cm respectively. The magnitudes, of the resistors R and X, in ohms, are then, equal, respectively, to
1) k(l2 – l1) and kl1
2) kl1 and kl2
3) k(l2 – l1) and kl2
4) kl1 and k(l2 – l1)

21. A ball is dropped from a high rise platform at t = 0 starting from rest. After 6 seconds another ball is thrown downwards from the same platform with a speed ν. The two balls meet at t = 18 s. What is the value of ν ?
(Take g = 10 m/s2)
1) 40 m/s
2) 60 m/s
3) 75 m/s
4) 55 m/s

22. If ∆U and ∆W represent the increase in internal energy and work done by the system respectively in a thermodynamical process, which of the following is true ?
1) ∆U = ∆W, in a adiabatic process
2) ∆U = −∆W, in a isothermal process
3) ∆U = −∆W, in a adiabatic process
4) ∆U = ∆W, in a isothermal process

23. Six vectors, through have the magnitudes and directions indicated in the figure. Which of the following statements is true 1) 2) 3) 4) 24. A transverse wave is represented by y = A sin (wt – kx). For what value of the wavelength is the wave velocity equal to the maximum particle velocity?
1) 2πA
2) A
3) πA/2
4) πA

25. A common emitter amplifier has a voltage gain of 50, an input impedance of 100Ω and an output impedance of 200Ω. The power gain of the amplifier is
1) 1250
2) 50
3) 500
4) 1000

26. The energy of a hydrogen atom in the ground state is –13.6 eV. The energy of a He+ ion in the first excited state will be :
1) –55.4 eV
2) –6.8 eV
3) –13.6 eV
4) –27.2 eV

27. The potential difference that must be applied to stop the fastest photo electrons emitted by a nickel surface, having work function 5.01 eV, when ultraviolet light of 200 nm falls on it, must be:
1) –2.4 V
2) 12 V
3) 2.4 V
4) –1.2 V

28. An engine pumps water through a hose pipe. Water passes through the pipe and leaves it with a velocity of 2 m/s. The mass per unit length of water in the pipe is 100 kg/m. What is the power of the engine
1) 100 W
2) 800 W
3) 400 W
4) 200 W

29. A circular disk of moment of inertia It, is rotating in a horizontal plane, about its symmetry axis, with a constant angular speed ωi. Another disk of moment of inertia Ib is dropped coaxially onto the rotating disk. Initially the second disk has zero angular speed. Eventually both the disks rotate with a constant angular speed ωf. The energy lost by the initially rotating disc to friction is :
1) 2) 3) 4) 30. A conducting circular loop is placed in a uniform magnetic field B = .025 T with its plane perpendicular to the loop. The radius of the loop is made to shrink at a constant rate of 1 mm s–1. The induced emf when the radius is 2 cm, is:
1) (π/2)µV
2) 2µV
3) 2πµV
4) πµV

31. A cylindrical metallic rod in thermal contact with two reservoirs of heat at its two ends conducts and amount of heat Q in time t. The metallic rod is melted and the material is formed into a rod of half the radius of the original rod. What is the amount of heat conducted by the new rod, when placed in thermal contact with the two reservoirs in time t?
1) 2Q
2) Q/2
3) Q/4
4) Q/16

32. In the given circuit the reading of voltmeter V1 and V2 are 300 volts each. The reading of the voltmeter V3 and ammeter A are respectively :
1) 220 V, 2.0 A
2) 100 V, 2.0 A
3) 150 V, 2.2 A
4) 220 V, 2.2 A

33. A block of mass m is in contact with the cart C as shown in the figure.
The coefficient of static friction between the block and the cart is µ. The acceleration α of the cart that will prevent the block from falling satisfies:
1) α ≥ (g/µ)
2) α (mg/µ)
4) α > (g/µm)

34. The period of oscillation of a mass M suspended from a spring of negligible mass is T. If along with it another mass M is also suspended, the period of oscillation will now be:
1) 2T
2) √2T
3) T
4) T/√2

35. The activity of a radioactive sample is measured as N0 counts per minute at t = 0 and N0/e counts per minutes at t = 5 minutes. The time (in minutes) at which the activity reduces to half its value is :
1) 5 log10 2
2) 5 loge 2
3) loge 2/5
4) 5/loge 2

36. A galvanometer has a coil of resistance 100 ohm and gives a full scale deflection for 30 mA current. If it is to work as a voltmeter of 30 volt range, the resistance required to be added will be :
1) 500Ω
2) 600Ω
3) 900Ω
4) 1800Ω

37 . A tuning fork of frequency 512 Hz makes 4 beats per second with the vibrating string of a piano. The beat frequency decrease to 2 beats per sec when the tension in the piano string is slightly increased. The frequency of the piano string before increasing the tension was:
1) 516 Hz
2) 508 Hz
3) 510 Hz
4) 514 Hz

38. Consider the following statements :
(A) Kirchhoff’s junction law follows from the conservation of charge.
(B) Kirchhoff’s loop law follows from the conservation of energy.
Which of the following is correct?
1) (A) is wrong and (B) is correct
2) Both (A) and (B) are correct
3) Both (A) and (B) are wrong
4) (A) is correct and (B) is wrong

39. A beam of cathode rays is subjected to crossed Electric (E) and Magnetic fields (B). The fields are adjusted such that the beam is not deflected. the specific charge of the cathode rays is given by :
(Where V is the potential difference between cathode and anode)
1) 2VE2/B2
2) E2/2VB2
3) B2/2VE2
4) 2VB2/E2

40. A gramophone record is revolving with an angular velocity ω. A coin is placed at a distance r from the centre of the record. The static coefficient of friction is µ. The coin will revolve with the record if :
1) r ≤ (µg/ω2)
2) r ≥ (µg/ω2)
3) r = µgω2
4) r < (ω2/µg)

41. A The dimension of (1/2) 0 E2, where 0 is permittivity of free space and E is electrif field, is
1) ML2T–1
2) MLT–1
3) ML2T–2
4) ML–1T–2

42. A particle moves a distance x in time t according to equation x = (t + 5)–1. The acceleration of particle is proportional to :
1) (distance)–2
2) (velocity)2/3
3) (velocity)3/2
4) (distance)2

43. An alpha nucleus of energy (1/2) mv2 bombards a heavy nuclear target of charge Ze. Then the nucleus will be proportional to:
1) 1/m
2) 1/v2
3) 1/Ze
4) v2

44. The displacement of a particle alone the x axis is given by x = a sin2 ωt. The motion of the particle corresponds to :
1) non simple harmonic motion
2) simple harmonic motion of frequency ω/2π
3) simple harmonic motion of frequency ω/π
4) simple harmonic motion of frequency 3ω/2π

45. The mass of a 7Li3 nucleus is 0.042 u less than the sum of the masses of all its nucleons. The binding energy per nucleon of 7Li3 nucleus is nearly :
1) 3.9 MeV
2) 26 MeV
3) 46 MeV
4) 5.6 MeV

46. A square surface of side L meter in the plane of the paper is placed in a uniform electric field E (volt/ m) acting along the same plane at an angle θ with the horizontal side of the square as shown in figure. The electric flux linked to the surface, in units of volt -m, is
1) EL2 sinθ
2) Zero
3) EL2
4) EL2 cosθ

47. In producing chlorine by electrolysis 100 kW power at 125 V is being consumed. How much chlorine per minute is liberated (E.C.E. of chlorine is 0.367 × 10–6 Kg/C)
1) 17.61 × 10–3 kg
2) 3.67 × 10–3 kg
3) 1.76 × 10–3 kg
4) 9.67 × 10–3 kg

48. Electromagnets are made of soft iron because soft iron has
1) low retentivity and low coercive force
2) high retentivity and low coercive force
3) low retentivity and high coercive force
4) hig retentivity and high coercive force

49. A man of 50 kg mass is standing in a gravity free space at a height of 10 m above the floor. He throws a stone of 0.5 kg mass downwards with a speed 2 m/s. When the stone reaches the floor, the distance of the man above the floor will be:
1) 10 m
2) 20 m
3) 99 m
4) 10.1 m

50 A 220 volt input is supplied to a transformer. The output circuit draws a current of 2.0 ampere at 440 volts. If the efficiency of the transformer is 80%, the current drawn by the primary windings of the transformer is :
1) 2.5 ampere
2) 50 ampere
3) 3.6 ampere
4) 2.8 ampere

51. The radii of circular orbits of two satellites A and B of the earth, are 4R and R, respectively. If the speed of satellite A is 3V, then the speed of satellite B will be :
1) 12V
2) 3V/2
3) 3V/4
4) 6V

52. A vibration magnetometer placed in magnetic meridian has a small bar magnet. The magnet executes oscillations with a time period of 2 sec in earth’s horizontal magnetic field of 24 microtesla. When a horizontal field of 18 microtesla is produced opposite to earth’s field by placing a current carrying wire, the new time period of magnet will be
1) 3s
2) 4s
3) 1s
4) 2s

53. The total  radiant energy per unit area, normal to the direction of incidence, received at a distance R from the centre of a star of radius r, whose outer surface radiates as a black body at a temperature T K is given by
(Where σ is Stefan’s Constant)
1) σr4T4/r4
2) 4πσr2T4/R2
3) σr2T4/R2
4) σr2T4/4πr2

54. A thin ring of radius R meter has charge q coulomb uniformly spread on it. The ring rotates about its axis with a constant frequency of f revolutions/ s. The value of magnetic induction in Wb/m2 at the centre of the ring is:
1) µ0q/2fR
2) µ0qf/2R
3) µ0qf/2Πr
4) µ0q/2πfR

55. Which of the following statement is false for the properties of electromagnetic waves?
1) Both electric and magnetic field vectors are parallel to each other perpendicular to the direction of propagation of wave
2) These waves do not require any material medium for propagation
3) Both electric and magnetic field vectors attain the maxima and minima at the same place and same time
4) The energy in electromagnetic wave is divided equally between electric and magnetic vectors

56. A ray of light travelling in a transparent medium of refractive index µ, falls on a surface separating the medium from air at an angle of incidence of 45°. for which of the following value of µ the ray can undergo total internal reflection ?
1) µ = 1.50
2) µ = 1.25
3) µ = 1.33
4) µ = 1.10

57. Which one of the following statement is FALSE?
1) Minority cariers in a p-type semiconductor are electrons
2) The resistance of intrinsic semiconductor decreases with increase of temperature
3) Pure Si doped with trivalent impurities gives a p-type semiconductor
4) Majority carriers in a n-type semiconductor are holes

58. A particle of mass M is situated at the centre of a spherical shell of same mass and radius a. The gravitational potential at a point situated at a/2 distance from the centre, will be:
1) -(GM/a)
2) -(4GM/a)
3) -(3GM/a)
4) -(2GM/a)

59. Two positive ions, each carrying a charge q, are separated by a distance d. If F is the force of repulsion between the ions, the number of electrons missing from each ion will be (e being the charge on an electron)
1) 2) 3) 4) 60. A lens having focal lengh f and aperture of diameter d forms an image of intensity I. Aperture of diameter (d/2) in central region of lens is covered by a black paper. Focal length of lens and intensity of image now will be respectively
1) f and (3I/4)
2) (f/2) and (I/2)
3) f and (I/4)
4) (3f/4) and (I/2)

61. To get an output Y = 1 from the circuit shown below, the input must be :

1) A-1 B-0 C-1
2) A-1 B-0 C-0
3) A-0 B-1 C-0
4) A-0 B-0 C-1

62. If ∆U and ∆W represent the increase in internal energy and work done by the system respectively in a thermodynamical process, which of the following is true ?
1) ∆U = ∆W, in a adiabatic process
2) ∆U = −∆W, in a isothermal process
3) ∆U = −∆W, in a adiabatic process
4) ∆U = ∆W, in a isothermal process

63. The device that can act as a complete electronic circuit is :
1) Junction transistor
2) Zener diode
3) Junction diode
4) Integrated circuit

64. Two particles which are initially at rest, move towards each other under the action of their internal attraction. If their speeds are ν and 2ν at any instant, then the speed of centre of mass of the system will be
1) 1.5ν
2) Ν
3) 2ν
4) Zero

65. A series combination of n1 capacitors, each of value C1 is charged by a source of potential difference 4V. When another parallel combination of n2 capacitors, each of value C2 is charged by a source of potential difference V, it has the same (total) energy stored in it, as the first combination has. The value of C2 in terms of C1, is then :
1) 2(n2/n1)C1
2) (16C1/n1n2)
3) (2C1/n1n2)
4) 16(n2/n1)C1

66. A source S1 is producing, 1015 photons per second of wavelength 5000Å. Another source S2 is producing 1.02 × 1015 photons per second of wavelength 5100Å. Then (power of S2)/(power of S1) is equal to
1) 1.04
2) 0.98
3) 1.00
4) 1.02

67. Six vectors, through have the magnitudes and directions indicated in the figure. Which of the following statements is true

1) 1) 2) 3) 4) 68. A transverse wave is represented by y = A sin (wt – kx). For what value of the wavelength is the wave velocity equal to the maximum particle velocity?
1) 2πA
2) A
3) πA/2
4) πA

69. A cylindrical metallic rod in thermal contact with two reservoirs of heat at its two ends conducts and amount of heat Q in time t. The metallic rod is melted and the material is formed into a rod of half the radius of the original rod. What is the amount of heat conducted by the new rod, when placed in thermal contact with the two reservoirs in time t?
1) 2Q
2) Q/2
3) Q/4
4) Q/16

70. A potentiometer or circuit is set up as shown. The potential gradient, across the potentiometer wire, is k volt/ cm and the ammeter, present in the circuit, reads 10A when two way key is switched off. The balance points, when the key between the terminals (i) 1 and 2 (ii) 1 and 3, is plugged in, are found to be at lengths l1 cm and l2 cm respectively. The magnitudes, of the resistors R and X, in ohms, are then, equal, respectively, to

1) k(l2 – l1) and kl1
2) kl1 and kl2
3) k(l2 – l1) and kl2
4) kl1 and k(l2 – l1)

71. A ball is dropped from a high rise platform at t = 0 starting from rest. After 6 seconds another ball is thrown downwards from the same platform with a speed ν. The two balls meet at t = 18 s. What is the value of ν ?
(Take g = 10 m/s2)
1) 40 m/s
2) 60 m/s
3) 75 m/s
4) 55 m/s

72. The energy of a hydrogen atom in the ground state is –13.6 eV. The energy of a He+ ion in the first excited state will be :
1) –55.4 eV
2) –6.8 eV
3) –13.6 eV
4) –27.2 eV

73. Which one of the following bonds produces a solid that reflects light in the visible region and whose electrical conductivity decreases with temperature and has high melting point?
1) ionic bonding
2) covalent bonding
3) metallic bonding
4) van der Waal’s bonding

74. An engine pumps water through a hose pipe. Water passes through the pipe and leaves it with a velocity of 2 m/s. The mass per unit length of water in the pipe is 100 kg/m. What is the power of the engine
1) 100 W
2) 800 W
3) 400 W
4) 200 W

75. A common emitter amplifier has a voltage gain of 50, an input impedance of 100Ω and an output impedance of 200Ω. The power gain of the amplifier is
1) 1250
2) 50
3) 500
4) 1000

76. A conducting circular loop is placed in a uniform magnetic field B = .025 T with its plane perpendicular to the loop. The radius of the loop is made to shrink at a constant rate of 1 mm s–1. The induced emf when the radius is 2 cm, is:
1) (π/2)µV
2) 2µV
3) 2πµV
4) πµV

77. The potential difference that must be applied to stop the fastest photo electrons emitted by a nickel surface, having work function 5.01 eV, when ultraviolet light of 200 nm falls on it, must be:
1) –2.4 V
2) 12 V
3) 2.4 V
4) –1.2 V

78. In the given circuit the reading of voltmeter V1 and V2 are 300 volts each. The reading of the voltmeter V3 and ammeter A are respectively :

1) 220 V, 2.0 A
2) 100 V, 2.0 A
3) 150 V, 2.2 A
4) 220 V, 2.2 A

79. A circular disk of moment of inertia It, is rotating in a horizontal plane, about its symmetry axis, with a constant angular speed ωi. Another disk of moment of inertia Ib is dropped coaxially onto the rotating disk. Initially the second disk has zero angular sppeed. Eventually both the disks rotate with a constant angular speed ωf. The energy lost by the initially rotating disc to friction is :
1) 2) 3) 4) 80. The period of oscillation of a mass M suspended from a spring of negligible mass is T. If along with it another mass M is also suspended, the period of oscillation will now be:
1) 2T
2) √2T
3) T
4) T/√2

81. A block of mass m is in contact with the cart C as shown in the figure.

The coefficient of static friction between the block and the cart is µ. The acceleration α of the cart that will prevent the block from falling satisfies:
1) α ≥ (g/µ)
2) α < (g/µ) 3) α > (mg/µ)
4) α > (g/µm)

82. A galvanometer has a coil of resistance 100 ohm and gives a full scale deflection for 30 mA current. If it is to work as a voltmeter of 30 volt range, the resistance required to be added will be :
1) 500Ω
2) 600Ω
3) 900Ω
4) 1800Ω

83. A beam of cathode rays is subjected to crossed Electric (E) and Magnetic fields (B). The fields are adjusted such that the beam is not deflected. the specific charge of the cathode rays is given by :
(Where V is the potential difference between cathode and anode)
1) 2VE2/B2
2) E2/2VB2
3) B2/2VE2
4) 2VB2/E2

84. Consider the following statements :
(A) Kirchhoff’s junction law follows from the conservation of charge.
(B) Kirchhoff’s loop law follows from the conservation of energy.
Which of the following is correct?
1) (A) is wrong and (B) is correct
2) Both (A) and (B) are correct
3) Both (A) and (B) are wrong
4) (A) is correct and (B) is wrong

85. The activity of a radioactive sample is measured as N0 counts per minute at t = 0 and N0/e counts per minutes at t = 5 minutes. The time (in minutes) at which the activity reduces to half its value is :
1) 5 log10 2
2) 5 loge 2
3) loge 2/5
4) 5/loge 2

86. A gramophone record is revolving with an angular velocity ω. A coin is placed at a distance r from the centre of the record. The static coefficient of friction is µ. The coin will revolve with the record if :
1) r ≤ (µg/ω2)
2) r ≥ (µg/ω2)
3) r = µgω2
4) r < (ω2/µg)

87. A 220 volt input is supplied to a transformer. The output circuit draws a current of 2.0 ampere at 440 volts. If the efficiency of the transformer is 80%, the current drawn by the primary windings of the transformer is :
1) 2.5 ampere
2) 50 ampere
3) 3.6 ampere
4) 2.8 ampere

88. A particle moves a distance x in time t according to equation x = (t + 5)–1. The acceleration of particle is proportional to :
1) (distance)–2
2) (velocity)2/3
3) (velocity)3/2
4) (distance)2

89. The mass of a 7Li3 nucleus is 0.042 u less than the sum of the masses of all its nucleons. The binding energy per nucleon of 7Li3 nucleus is nearly :
1) 3.9 MeV
2) 26 MeV
3) 46 MeV
4) 5.6 MeV

90. The displacement of a particle alone the x axis is given by x = a sin2 ωt. The motion of the particle corresponds to :
1) non simple harmonic motion
2) simple harmonic motion of frequency ω/2π
3) simple harmonic motion of frequency ω/π
4) simple harmonic motion of frequency 3ω/2π
\

91. A The dimension of (1/2) 0 E2, where 0 is permittivity of free space and E is electrif field, is
1) ML2T–1
2) MLT–1
3) ML2T–2
4) ML–1T–2

92. A square surface of side L meter in the plane of the paper is placed in a uniform electric field E (volt/ m) acting along the same plane at an angle θ with the horizontal side of the square as shown in figure. The electric flux linked to the surface, in units of volt -m, is

1) EL2 sinθ
2) Zero
3) EL2
4) EL2 cosθ

93. An alpha nucleus of energy (1/2) mv2 bombards a heavy nuclear target of charge Ze. Then the nucleus will be proportional to:
1) 1/m
2) 1/v2
3) 1/Ze
4) v2

94. Electromagnets are made of soft iron because soft iron has
1) low retentivity and low coercive force
2) high retentivity and low coercive force
3) low retentivity and high coercive force
4) hig retentivity and high coercive force

95. A man of 50 kg mass is standing in a gravity free space at a height of 10 m above the floor. He throws a stone of 0.5 kg mass downwards with a speed 2 m/s. When the stone reaches the floor, the distance of the man above the floor will be:
1) 10 m
2) 20 m
3) 99 m
4) 10.1 m

96. A ball moving with velocity 2 m/s collides head on with another stationary ball of double the mass. If the coefficient of restitution is 0.5, then their velocities (in m/s) after collision will be:
1) 1, 0.5
2) 0, 2
3) 0, 1
4) 1, 1

97. In producing chlorine by electrolysis 100 kW power at 125 V is being consumed. How much chlorine per minute is liberated (E.C.E. of chlorine is 0.367 × 10–6 Kg/C)
1) 17.61 × 10–3 kg
2) 3.67 × 10–3 kg
3) 1.76 × 10–3 kg
4) 9.67 × 10–3 kg

98. A particle has initial velocity (3î + 4ĵ) and has acceleration (0.4î + 0.3ĵ). Its speed after 10 s
is :
1) 8.5 units
2) 10 units
3) 7 units
4) 7√2 units

99. A square current carrying loop is suspended in a uniform magnetic field acting in the plane of the loop. If the force on one arm of the loop is , the net force on the remaining three arms of the loops is :
1) -3
2)1
3) 3
4) -1

100. A tuning fork of frequency 512 Hz makes 4 beats per second with the vibrating string of a piano. The beat frequency decrease to 2 beats per sec when the tension in the piano string is slightly increased. The frequency of the piano string before increasing the tension was:
1) 516 Hz
2) 508 Hz
3) 510 Hz
4) 514 Hz

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AIPMT online test series futher look: AIPMT Physics-Magnetic Effects of Current

AIPMT online test series futher link: AIPMT 2012 PHYSICS SOLVED

### 3 Responses to AIPMT Online Test Series – Physics

1. prachi maurya says:

maximum height reached by a rocket fired with a speed equal to 50% of the escape velocity from earth’s surface is- a] R/2 b]16R/9 c]R/3 d]R/8

2. Akash Tripathi says:

As mainly theoretical questions are mainly asked in AIPMT so some more theory questions should be incorporated in this paper.
Rest the level of questions is up to the mark.

3. Er Ketan Joshi says:

After we complete 12th exam we have three core field and medical field is one of the core field in which we have to built our career. But in medical field there is an so many medical entrance exam will be held that is
AIPMT (ALL INDIA PRE-MEDICAL TEST) it is an all india basis test by which if student will crack that exam they have to take a chance to give the main exam of medical so this post will really help full to those candidate who is interesting in medical field.