164002 There is no atmosphere on the moon because

163967 The kinetic energy needed to project a body of mass \(\mathrm{m}\) from the earth surface (radius \(\mathrm{R}\) ) to infinity is :

163965 If mass of earth is \(M\), radius is \(R\) and gravitational constant is G, then work done to take \(1 \mathrm{~kg}\) mass from earth surface to infinity will be :

163966 A body of mass \(m\) rises to height \(h=R / 5\) from the earth's surface, where \(\mathbf{R}\) is earth's radius. If \(g\) is acceleration due to gravity at earth's surface, the increase in potential energy is :

163968 Gas escapes from the surface of a planet because it acquires an escape velocity. The escape velocity will depend on which of the following factors
I. Mass of the planet
II. Mass of the particle escaping
III. Temperature of the planet
IV. Radius of the planet
Select the correct answer from the codes given below :

164002 There is no atmosphere on the moon because

163967 The kinetic energy needed to project a body of mass \(\mathrm{m}\) from the earth surface (radius \(\mathrm{R}\) ) to infinity is :

163965 If mass of earth is \(M\), radius is \(R\) and gravitational constant is G, then work done to take \(1 \mathrm{~kg}\) mass from earth surface to infinity will be :

163966 A body of mass \(m\) rises to height \(h=R / 5\) from the earth's surface, where \(\mathbf{R}\) is earth's radius. If \(g\) is acceleration due to gravity at earth's surface, the increase in potential energy is :

163968 Gas escapes from the surface of a planet because it acquires an escape velocity. The escape velocity will depend on which of the following factors
I. Mass of the planet
II. Mass of the particle escaping
III. Temperature of the planet
IV. Radius of the planet
Select the correct answer from the codes given below :

164002 There is no atmosphere on the moon because

163967 The kinetic energy needed to project a body of mass \(\mathrm{m}\) from the earth surface (radius \(\mathrm{R}\) ) to infinity is :

163965 If mass of earth is \(M\), radius is \(R\) and gravitational constant is G, then work done to take \(1 \mathrm{~kg}\) mass from earth surface to infinity will be :

163966 A body of mass \(m\) rises to height \(h=R / 5\) from the earth's surface, where \(\mathbf{R}\) is earth's radius. If \(g\) is acceleration due to gravity at earth's surface, the increase in potential energy is :

163968 Gas escapes from the surface of a planet because it acquires an escape velocity. The escape velocity will depend on which of the following factors
I. Mass of the planet
II. Mass of the particle escaping
III. Temperature of the planet
IV. Radius of the planet
Select the correct answer from the codes given below :

164002 There is no atmosphere on the moon because

163967 The kinetic energy needed to project a body of mass \(\mathrm{m}\) from the earth surface (radius \(\mathrm{R}\) ) to infinity is :

163965 If mass of earth is \(M\), radius is \(R\) and gravitational constant is G, then work done to take \(1 \mathrm{~kg}\) mass from earth surface to infinity will be :

163966 A body of mass \(m\) rises to height \(h=R / 5\) from the earth's surface, where \(\mathbf{R}\) is earth's radius. If \(g\) is acceleration due to gravity at earth's surface, the increase in potential energy is :

163968 Gas escapes from the surface of a planet because it acquires an escape velocity. The escape velocity will depend on which of the following factors
I. Mass of the planet
II. Mass of the particle escaping
III. Temperature of the planet
IV. Radius of the planet
Select the correct answer from the codes given below :

164002 There is no atmosphere on the moon because

163967 The kinetic energy needed to project a body of mass \(\mathrm{m}\) from the earth surface (radius \(\mathrm{R}\) ) to infinity is :

163965 If mass of earth is \(M\), radius is \(R\) and gravitational constant is G, then work done to take \(1 \mathrm{~kg}\) mass from earth surface to infinity will be :

163966 A body of mass \(m\) rises to height \(h=R / 5\) from the earth's surface, where \(\mathbf{R}\) is earth's radius. If \(g\) is acceleration due to gravity at earth's surface, the increase in potential energy is :

163968 Gas escapes from the surface of a planet because it acquires an escape velocity. The escape velocity will depend on which of the following factors
I. Mass of the planet
II. Mass of the particle escaping
III. Temperature of the planet
IV. Radius of the planet
Select the correct answer from the codes given below :