Chapter 10 – Gravitation

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How long will a satellite placed in a circular orbit of radius that us (1/4)th the radius of a geostationary satellite take to complete one revolution around the earth ?
22
Sep
How long will a satellite placed in a circular orbit of radius that us (1/4)th the radius of a geostationary satellite take to complete one revolution around the earth ? How long will a satellite placed in a circular orbit of radius that us (1/4)th the radius of a geostationary satellite take to complete one [...]
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An artificial satellite is orbiting at the height of 1800 km from the Earth surface the earth radius is 6300 km and G = 10 m/s^2 on its surface. what is the radial acceleration ?
22
Sep
An artificial satellite is orbiting at the height of 1800 km from the Earth surface the earth radius is 6300 km and G = 10 m/s^2 on its surface. what is the radial acceleration ? An artificial satellite is orbiting at the height of 1800 km from the Earth surface the earth radius is 6300 [...]
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Tags: An artificial satellite is orbiting at the height of 1800 km from the Earth surface the earth radius is 6300 km and G = 10 m/s^2 on its surface. what is the radial acceleration ? ,
A saturn year is 29.5 times the earth year. How far is the saturn from the sun if the earth is 1.5 × 10^8 km away from the sun ?
22
Sep
A saturn year is 29.5 times the earth year. How far is the saturn from the sun if the earth is 1.5 × 10^8 km away from the sun ? A saturn year is 29.5 times the earth year. How far is the saturn from the sun if the earth is 1.5 × 10^8 km [...]
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Tags: A saturn year is 29.5 times the earth year. How far is the saturn from the sun if the earth is 1.5 × 10^8 km away from the sun ? ,
A satellite is in a circular orbit close to the surface of a planet. At some point it is given an impulse along the direction of motion, causing its velocity to lncrease n times. It now goes into an elliptical orbit. The maximum possible value of n for this to occur is
22
Sep
A satellite is in a circular orbit close to the surface of a planet. At some point it is given an impulse along the direction of motion, causing its velocity to lncrease n times. It now goes into an elliptical orbit. The maximum possible value of n for this to occur is A satellite is [...]
Posted in: Chapter 10 - Gravitation , MTG NEET Physics , Part 1 ,
Tags: A satellite is in a circular orbit close to the surface of a planet. At some point it is given an impulse along the direction of motion , causing its velocity to lncrease n times. It now goes into an elliptical orbit. The maximum possible value of n for this to occur is ,
Two identical satellites A and B revolve around the earth in circular orbits at distance R and 3R from the surface of the earth. The ratio of the linear momenta of A and B is (R= radius of the earth)
22
Sep
Two identical satellites A and B revolve around the earth in circular orbits at distance R and 3R from the surface of the earth. The ratio of the linear momenta of A and B is (R= radius of the earth) Two identical satellites A and B revolve around the earth in circular orbits at distance [...]
Posted in: Chapter 10 - Gravitation , MTG NEET Physics , Part 1 ,
Tags: Two identical satellites A and B revolve around the earth in circular orbits at distance R and 3R from the surface of the earth. The ratio of the linear momenta of A and B is (R= radius of the earth) ,
Two satellite of mass m and 9m are orbiting a planet in a circular orbits of radius R. Their periods of revolution will be in the ratio of
22
Sep
Two satellite of mass m and 9m are orbiting a planet in a circular orbits of radius R. Their periods of revolution will be in the ratio of Two satellite of mass m and 9m are orbiting a planet in a circular orbits of radius R. Their periods of revolution will be in the ratio [...]
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Tags: Two satellite of mass m and 9m are orbiting a planet in a circular orbits of radius R. Their periods of revolution will be in the ratio of ,
Assuming density d of a planet to be uniform, we can say that the time period of its artificial satellite is proportional to
22
Sep
Assuming density d of a planet to be uniform, we can say that the time period of its artificial satellite is proportional to Assuming density d of a planet to be uniform we can say that the time period of its artificial satellite is proportional to September 22, 2020 Category: Chapter 10 - Gravitation , [...]
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Tags: Assuming density d of a planet to be uniform , we can say that the time period of its artificial satellite is proportional to ,
If the escape velocity of a planet is 3 times that of the Earth and its radius is 4 times that of the Earth, then the mass of the planet is ( mass of the earth = 6 x 10^24 kg )
22
Sep
If the escape velocity of a planet is 3 times that of the Earth and its radius is 4 times that of the Earth, then the mass of the planet is ( mass of the earth = 6 x 10^24 kg ) If the escape velocity of a planet is 3 times that of the [...]
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Tags: If the escape velocity of a planet is 3 times that of the Earth and its radius is 4 times that of the Earth , then the mass of the planet is ( mass of the earth = 6 x 10^24 kg ) ,
A body is released from a point distance r from the centre of earth. If R is the radius of the earth and r>R, then the velocity of the body at the time of striking the earth will be
22
Sep
A body is released from a point distance r from the centre of earth. If R is the radius of the earth and r>R, then the velocity of the body at the time of striking the earth will be A body is released from a point distance r from the centre of earth. If R [...]
Posted in: Chapter 10 - Gravitation , MTG NEET Physics , Part 1 ,
Tags: A body is released from a point distance r from the centre of earth. If R is the radius of the earth and r>R , then the velocity of the body at the time of striking the earth will be ,
A particle of mass ‘m’ is kept at rest at a height 3 R from the surface of earth, where ‘R’ is radius of earth and ‘M’ is mass of earth. The minimum speed with which it should be projected, so that it does not return back, is (g is acceleration due to gravity on the surface of earth)
22
Sep
A particle of mass ‘m’ is kept at rest at a height 3 R from the surface of earth, where ‘R’ is radius of earth and ‘M’ is mass of earth. The minimum speed with which it should be projected, so that it does not return back, is (g is acceleration due to gravity on [...]
Posted in: Chapter 10 - Gravitation , MTG NEET Physics , Part 1 ,
Tags: A particle of mass ‘m’ is kept at rest at a height 3 R from the surface of earth , is (g is acceleration due to gravity on the surface of earth) , so that it does not return back , where ‘R’ is radius of earth and ‘M’ is mass of earth. The minimum speed with which it should be projected ,