An artificial satellite is at a height of 35780 km from the Earth's surface .What is the period of revolution of this satellite ?

A remote sensing satellite of the Earth revolves in a circular orbit at a height of 250 km above the Earth's surface. What is the (i) Orbital speed and (ii) period of revolution of the satellite. Radius of the Earth, R=6.38xx10^(6)m , and acceleration due to gravity on the surface of the Earth, g=9.8ms^(-2)

What is an artificial satellite?

Orbit of a satellite between 180 km .to 2000km from Earth's surface .

Consider earth satellites in circular orbits. A geostationary satellite must be at a height of about 36000 km from the earth's surface. Will any satellite moving at this height be a geostationary satellite? Will any satellite moving at this height have a time period of 24 hours?

As you have learnt in the text, a geostationary satellite orbits the earth at a height of nearly 36,000 km from the surface of the earth. What is the potential due to earth’s gravity at the site of this satellite ? (Take the potential energy at infinity to be zero). Mass of the earth = 6.0 xx 10^(24) kg." radius" = 6400 km .

Orbital velocity V = sqrt((GM)/(R+h)) Suppose the orbit of a satellite is exactly 35780 km above the earth's surface , how much time the satellite will take to complete one revolution around the earth ?

Orbital velocity V = sqrt((GM)/(R+h)) Suppose the orbit of a satellite is exactly 35780 km above the earth's surfce. Determine the tangential velocity of the satellite .

How much time a satellite in an orbit at height 35780 km above earth's surface would take , if the mass of the earth would have been four time its original mass ?

How much time a satellite in an orbit at height 35780 km above earth's surface would take , if the mass of the earth would have been four time its original mass ?