Advertisements
Advertisements
प्रश्न
A body stretches a spring by a particular length at the earth's surface at the equator. At what height above the south pole will it stretch the same spring by the same length? Assume the earth to be spherical.
Advertisements
उत्तर
At the equator, g' = g − ω2R ...(i)
Let h be the height above the South Pole where the body stretch the spring by the same length.
The acceleration due to gravity at this point is \[g' = g\left( 1 - \frac{2h}{R} \right)\]
Weight of the body at the equator = weight of the body at height h above the South Pole
\[\therefore g - \omega^2 r = g\left( 1 - \left( \frac{2h}{R} \right) \right)\]
\[ \Rightarrow 1 - \frac{\omega^2 R}{2g} = 1 - \frac{2h}{R}\]
\[ \Rightarrow h = \frac{\omega^2 R^2}{2g}\]
\[ = \frac{\left( 7 . 3 \times {10}^{- 5} \right)^2 \times \left( 6400 \times {10}^{- 3} \right)^2}{2 \times 9 . 81}\]
\[ = \frac{\left( 7 . 3 \right)^2 \times \left( 64 \right)^2}{19 . 62}\]
\[ = 11125 \text{ m }= 10 \text{ km} \left( \text { approx }. \right)\]
APPEARS IN
संबंधित प्रश्न
Two satellites A and B move round the earth in the same orbit. The mass of B is twice the mass of A.
A Mars satellite moving in an orbit of radius 9.4 × 103 km takes 27540 s to complete one revolution. Calculate the mass of Mars.
Choose the correct option.
The binding energy of a satellite revolving around the planet in a circular orbit is 3 × 109 J. It's kinetic energy is ______.
Draw a labelled diagram to show different trajectories of a satellite depending upon the tangential projection speed.
Answer the following question in detail.
What is a critical velocity?
Answer the following question in detail.
Two satellites A and B are revolving round a planet. Their periods of revolution are 1 hour and 8 hour respectively. The radius of orbit of satellite B is 4 × 104 km. Find radius of orbit of satellite A.
There is no atmosphere on moon because ____________.
An aircraft is moving with uniform velocity 150 m/s in the space. If all the forces acting on it are balanced, then it will ______.
Two satellites A and B go round a planet P in circular orbits having radii 4R and R respectively. If the speed of the satellite A is 3v, the speed of satellite B is ____________.
Two satellites of masses m1 and m2 (m1 > m2) are revolving round the earth in circular orbit of radii r1 and r2 (r1 > r2) respectively. Which of the following statements is true regarding their speeds v1 and v2?
Reason of weightlessness in a satellite is ____________.
A satellite of mass 'm' is revolving around the earth of mass 'M' in an orbit of radius 'r' with constant angular velocity 'ω'. The angular momentum of the satellite is ______.
(G =gravitational constant)
A satellite is revolving in a circular orbit around the earth has total energy 'E'. Its potential energy in that orbit is ______.
An artificial satellite is moving in a circular orbit around the earth with a speed equal to half the magnitude of escape velocity from the earth. If the satellite is stopped in its orbit and allowed to fall freely onto the earth, the speed with which it hits the surface ______ km/s.
[g = 9.8 ms-2 and Re = 6400 km]
The ratio of binding energy of a satellite at rest on earth's surface to the binding energy of a satellite of same mass revolving around the earth at a height h above the earth's surface is ______ (R = radius of the earth).
A satellite revolves around a planet very close to its surface. By what maximum factor can its kinetic energy be increased suddenly, such that it revolves in orbit in the same way?
Two satellites are orbiting around the earth in circular orbits of same radius. One of them is 10 times greater in mass than the other. Their period of revolutions are in the ratio ______.
What is the approximate period of revolution for the Moon, Earth's only natural satellite?
Which application is mainly associated with polar satellites?
