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What is the shape of the orbit when the velocity of the satellite is everywhere perpendicular to the force of gravity?
If the velocity of the satellite is always perpendicular to the force of gravity, then the eccentricity of the orbit is zero, and it's perfectly circular.
What happens to the size of the centripetal force due to gravity acting on the satellite if the satellite moves farther from earth?
The centripetal force due to gravity decreases as the satellite moves farther from Earth because the force of gravity weakens with distance. This is in accordance with the inverse square law, which states that the force of gravity decreases with the square of the distance between two objects.
How does the centripetal force act on a satellite?
The centripetal force acts towards the center of the circular path followed by the satellite, allowing it to maintain its orbit. In the case of a satellite orbiting Earth, the force of gravity provides the centripetal force required to keep the satellite in its orbit.
Which force is responsible for artificial satellites following their paths around the earth?
The force responsible for artificial satellites following their paths around the Earth is gravitational force. Gravity pulls the satellite towards the Earth, while its orbital velocity allows it to travel forward, creating a balance that results in a stable orbit. This interplay between gravitational pull and the satellite's inertia keeps it in a continuous path around the planet.
What force causes the planets to stay in orbit around the sun?
The sun's gravitational force pulls its satellites towards it, while each satellite has its own inertia going in a straight line perpendicular to the gravitational force. With both forces working together, the satellite goes in a diagonal direction that is always changing with the change of its direction of inertia, causing the revolution.
The force of gravity is responsible for continuously changing the what of a satellite?
The force of gravity is responsible for continuously changing the velocity or speed of a satellite as it orbits around a larger body, such as a planet or a star. This change in velocity helps to maintain the satellite's orbit and keep it in motion around the larger body.
Does the force of gravity do work on a satellite when it is in motion?
No, the force of gravity does not do work on a satellite when it is in motion because the direction of the force is perpendicular to the direction of motion.
Which force attaracts satellite towards the earth?
The force of gravity, between Earth and the satellite.
A satellite orbits the Earth. Which changes would decrease the force of Earth's gravity on the satellite?
its gravity
What is the centripetal force that acts on satellites by continiously changing their direction of motion?
The centripetal force acting on satellites is gravity, specifically the gravitational force between the satellite and the celestial body it is orbiting. This force pulls the satellite towards the center of the orbit, continuously changing its direction of motion and keeping it in a circular or elliptical orbit around the celestial body.
What force pulls satellite towards earth?
Gravity.
What is the shape of the orbit when the velocity of the satellite is everywhere perpendicular to the force of gravity?
If the velocity of the satellite is always perpendicular to the force of gravity, then the eccentricity of the orbit is zero, and it's perfectly circular.
What is the force which keeps the satellite in orbit round the earth?
gravity
Which force keeps a satellite in orbit?
The mutual gravitational attraction between the satellite's mass and the earth's mass. Short answer: The force of gravity.
What force keeps satellite in orbit around the Earth?
There is only one main force acting on a satellite when it is in orbit, and that is the gravitational force.
Does satellite has acceleration due to gravity or not?
yes, this ADG helps the satellite to orbit earth. This is the centripital force
What happens to the size of the centripetal force due to gravity acting on the satellite if the satellite moves farther from earth?
The centripetal force due to gravity decreases as the satellite moves farther from Earth because the force of gravity weakens with distance. This is in accordance with the inverse square law, which states that the force of gravity decreases with the square of the distance between two objects.
