A geostationary satellite is orbiting the earth at a height of 5

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 Multiple Choice QuestionsMultiple Choice Questions

91.

The height at which the weight of a body becomes 1/16th, its weight on the surface of earth (radius R), is

  • 5R

  • 15 R

  • 3R

  • 3R

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92.

A geostationary satellite is orbiting the earth at a height of 5R above that surface of the earth, R being the radius of the earth. The  time period of another satellite in hours at a height of 2R from the surface of the earth is

  • 5

  • 10

  • 6 square root of 2
  • 6 square root of 2


C.

6 square root of 2
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93.

A spherical planet has a mass Mp and diameter Dp. A particle of mass m falling freely near the surface of this planet will experience an acceleration due to gravity, equal to

  • 4GMp/Dp2

  • GMpm/Dp2

  • GMpm/ Dp2

  • GMpm/ Dp2

1804 Views

94.

An alternating electric field of frequency v is applied across the dees (radius =R ) of a cyclotron that is being used to accelerate protons (mass = m). The operating magnetic field (B) used in the cyclotron and the kinetic energy (K) of the proton beam, produced by it are given by

  • straight B space equals mv over straight e and space straight K equals 2 mπ squared straight v squared straight R squared
  • straight B equals fraction numerator 2 πmv over denominator straight e end fraction space and space straight K space equals straight m squared straight pi space straight R squared
  • straight B equals space fraction numerator 2 πmv over denominator straight e end fraction space and space straight K space equals 2 mπ squared straight v squared straight R squared
  • straight B equals space fraction numerator 2 πmv over denominator straight e end fraction space and space straight K space equals 2 mπ squared straight v squared straight R squared
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95.

Infinite number of bodies, each of mass 2 kg are situated on x-axis at distance 1m, 2 m, 4 m, 8 m, respectively from the origin. The resulting gravitational potential due to this system at the origin will be

  • -G

  • negative 8 over 3 G
  • negative 4 over 3 G
  • negative 4 over 3 G
4711 Views

96.

A body projected vertically from the earth reaches a height equal to earth's radius before returning to the earth. The power exerted by the gravitational force is greatest

  • at the instant just before the body hits the earth

  • it remains constant all through

  • at the instant just after the body is projected

  • at the instant just after the body is projected

465 Views

97.

A boy standing at the t op of a tower of 20 m height drops a stone. Assuming g = 10 ms-2, the velocity with which it hits the ground is 

  • 20 m/s

  • 40 m/s

  • 5 m/s

  • 5 m/s

433 Views

98.

A satellite S is moving in an elliptical orbit around the earth. The mass of the satellite is very small as compared to the mass of the earth. Then,

  • the angular momentum of S about the centre of the earth changes in direction, but its magnitude remains constant

  • the total mechanical energy of S varies periodically with time

  • the linear momentum of S remains constant in magnitude

  • the linear momentum of S remains constant in magnitude

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99.

A remote sensing satellite of earth revolves in a circular orbit at a height of 0.25 x 106 m above the surface of the earth. if earth 's radius is 6.38 x 106 m and g = 9.8 ms-2 then the orbital speed of the  satellite is 

  • 7.76 kms-1

  • 8.56 kms-1

  • 9.13 kms-1

  • 9.13 kms-1

3365 Views

100.

A particle of mass m is thrown upwards from the surface of the earth, with a velocity u. The mass and the radius of the earth are, respectively, M and R.G are gravitational constant and g is acceleration due to gravity on the surface of the earth. The minimum value of u so that the particle does not return back to earth is 

  • square root of fraction numerator 2 GM over denominator 2 end fraction end root
  • square root of fraction numerator 2 GM over denominator straight R squared end fraction end root
  • square root of 2 gR squared end root
  • square root of 2 gR squared end root
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