Home
Class 11
PHYSICS
A 400 kg satellite is in a circular orbi...

A 400 kg satellite is in a circular orbit of radius `2 R_(E)` about the Earth. How much energy is required to transfer it to a circular orbit of radius `4R_(E)` ? What are the changes in the kinetic and potential energies ?

Text Solution

Verified by Experts

Inttlally,
`E_(1) = - (GM_(E)m)/(4R_(E))`
whtle finally
`E_(f) = - (GM_(E)m)/(8 R_(E))`
The change in the total energy is
`Delta E = E_(f) - E_(i)`
`=(GM_(E)m)/(8 R_(E)) = ((GM_(E))/(R_(E)^(2))) (mR_(E))/(8)`
`Delta E = (gmR_(E))/(8) = (9.81 xx 400 xx 6.37 xx 10^(6))/(8) = 3.13 xx 10^(9)` J
The kinetic energy is reduced and it mimics `Delta`E, namely ,` Delta K = K_(f) - K_(i) = - 3.13 xx 10^(9) J. `
The change in potential energy is twice the change n the total energy , namely
`Delta V = V_(f) - V_(i) = - 6.25 xx 10^(9) `J
Promotional Banner

Topper's Solved these Questions

  • GRAVITATION

    NCERT BANGLISH|Exercise EXERCISES|26 Videos

  • GRAVITATION

    NCERT BANGLISH|Exercise ADDITIONAL EXERCISES|4 Videos

  • KINETIC THEORY

    NCERT BANGLISH|Exercise ADDITIONAL EXERCISE|3 Videos

Similar Questions

Explore conceptually related problems

A satellite of mass m is in circular orbit of radius 3R_E about earth (mass of earth M_E , radius of earth R_E ). How much additional energy is required to transfer the satellite to an orbit of radius 9R_E ?

An artificial satellite of mass m is moving round the earth in an orbit of radius 2R. How much work is to be done to transfer the satellite to an orbit of radius 4R ? How will the potential energy of the satellite change ? (R=Radius of earth)

An aritificial satellite of mass m is moving round the earth, in an orbit of radius 2R. How much work is to be done to transfer the satellite to an orbit of radius 4R? How will the potential energy of the satellite change? (R = Radius of earth).

An artificial satellite moving in a circular orbit around the earth has a total energy -E_0 . Its potential energy is

A satellite of mass 1000 kg moves in a circular orbit of radius 7000 km around the earth. Calculate the total energy required to place the satellite in orbit from earth's surface. Take Radius of earth =6400 km and g=10 m*s^(-2) .