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Which could cause a satellite to descend low enough that it burns up in Earths atmosphere centripetal force air resistance gravitational force?
Air resistance is the primary force that would cause a satellite to descend low enough to burn up in Earth's atmosphere. As a satellite orbits, it experiences centripetal force that keeps it in orbit, but if it loses altitude due to drag from air resistance, the friction generated at lower altitudes can lead to increased heating and ultimately result in the satellite burning up. Gravitational force also plays a role, but it typically keeps the satellite in orbit rather than causing it to descend.
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What provides the force that causes the centripetal acceleratoin of the satellite in orbit?
The force that provides the centripetal acceleration for a satellite in orbit is the gravitational force between the satellite and the celestial body it is orbiting, such as Earth. This gravitational force acts as the centripetal force that keeps the satellite in its circular path around the celestial body.
How centripital force apply in artificial satellite?
Centripetal force is the force that keeps an artificial satellite in orbit around a celestial body, such as Earth. It is provided by the gravitational force between the satellite and the planet. The centripetal force acts as the inward force that continually changes the direction of the satellite's motion, allowing it to orbit the planet in a stable path.
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.
What keeps this natural satellite from flying off into outer space?
The natural satellite is held in orbit by the gravitational pull of the planet it orbits. This gravitational force acts as a centripetal force, keeping the satellite in a stable orbit around the planet.
What provides the centripetal force that keeps objects in orbit?
Centripetal force wants to move something towards the centre. So in a satellites case that would be the Gravity of the Earth. If you had a rock tied to a string you were spinning around, the Centripetal Force would be the tension in the string acting towards the centre.
What direction of the gravitational force and centripetal force on a satellite?
The gravitational force on a satellite is towards the center of the Earth. The gravitational force IS the centripetal force is this case, so the centripetal force pulls the satellite towards the center of the Earth. There is no balancing force that pulls the satellite outwards (if there were, it wouldn't accelerate, i.e., change direction).
What provides the force that causes the centripetal acceleratoin of the satellite in orbit?
The force that provides the centripetal acceleration for a satellite in orbit is the gravitational force between the satellite and the celestial body it is orbiting, such as Earth. This gravitational force acts as the centripetal force that keeps the satellite in its circular path around the celestial body.
Is centripetal force equal to gravitational force in working of a satillite?
No, centripetal force is the force required to keep an object moving in a circular path, while gravitational force is the force of attraction between two objects due to their mass. In the case of a satellite orbiting a planet, the centripetal force required to keep the satellite in orbit is provided by the gravitational force between the satellite and the planet.
How does centripetal force on a satellite in orbit?
by means of the gravitational forces between it and the planet
How does centripetal force act on a satellite orbit?
by means of the gravitational forces between it and the planet
What are the forces acting on a satellite that is in a circular orbit about the Earth at an altitude at which air resistance is negligible?
In a circular orbit with negligible air resistance, the main forces acting on a satellite are the gravitational force pulling it towards the Earth's center, and the centripetal force keeping it in its circular path. These two forces are balanced, allowing the satellite to maintain a stable orbit.
What keeps the satellite in orbit Centripetal or electrical?
Centripetal force is what keeps a satellite in orbit around a celestial body, like Earth. This force is due to the gravitational attraction between the satellite and the celestial body. Electrical forces play a role in satellite communication and operation, but they are not directly responsible for keeping the satellite in orbit.
What is the force that keeps a satellite in motion?
The force that keeps a satellite in motion is the gravitational force of the planet it is orbiting. This force acts as a centripetal force, pulling the satellite towards the planet and keeping it in its orbit.
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.
How centripital force apply in artificial satellite?
Centripetal force is the force that keeps an artificial satellite in orbit around a celestial body, such as Earth. It is provided by the gravitational force between the satellite and the planet. The centripetal force acts as the inward force that continually changes the direction of the satellite's motion, allowing it to orbit the planet in a stable path.
A satellite of mass 5500 kg orbits the Earth in a circular orbit of radius of 9.3 106 m this is above the Earth's atmosphereThe mass of the Earth is 6.0 1024 kg?
The gravitational force acting on the satellite is provided by the gravitational force between the satellite and the Earth, and is directed towards the center of the Earth. The gravitational force is responsible for causing the satellite to move in a circular path around the Earth. The centripetal force required to keep the satellite in its circular orbit is provided by the gravitational force between the satellite and the Earth.
What keeps this natural satellite from flying off into outer space?
The natural satellite is held in orbit by the gravitational pull of the planet it orbits. This gravitational force acts as a centripetal force, keeping the satellite in a stable orbit around the planet.
