Gravity is the primary force that governs the motion of a satellite orbiting the Earth. It pulls the satellite towards the Earth, providing the necessary centripetal force to keep it in a curved path. The balance between this gravitational pull and the satellite's forward velocity allows it to maintain a stable orbit, preventing it from falling back to Earth while continuously moving along its orbital path. If gravity were to change significantly, it could alter the satellite's orbit, potentially leading to a collision with the Earth or escape from its orbit altogether.
Gravity affects a satellite launch by pulling the satellite towards the Earth during its initial phase of ascent. This requires the rocket to generate enough thrust to overcome gravity in order to reach the desired orbit. Once the satellite is in orbit, gravity continues to affect its trajectory, helping to keep it in orbit around the Earth.
Actually the gravity cannot affect the suns movement. But without gravity, every planet would stop orbiting and sail off out of here in a straight line.
Gravity is the force that keeps a satellite in orbit around a planet. While a satellite is constantly falling toward the planet due to gravity, it also has a forward velocity that causes it to travel around the planet rather than directly downward. This balance between gravitational pull and the satellite's inertia results in a stable orbit. Essentially, gravity acts as the centripetal force that maintains the satellite's circular or elliptical path around the Earth or another celestial body.
There is no such thing as 'zero gravity,' as even if you went a million lightyears away from an object, it's gravity would still have a minor affect on you. The only way to feel no gravity from an individual body such as the earth is to be in free fall. This is why the astronauts orbiting the earth dont feel its gravity, as contrary to popular belief, orbiting is actually just free falling at an angle where you constantly miss the object you are orbiting. Hope this helped!
Doubling the mass of a satellite would result in no change in its orbital velocity. This is because the orbital velocity of a satellite only depends on the mass of the planet it is orbiting and the radius of its orbit, but not on the satellite's own mass.
The mass of a satellite does not affect its orbit. The orbit of a satellite is determined by its speed and the gravitational pull of the object it is orbiting around, such as a planet. The mass of the satellite itself does not play a significant role in determining its orbit.
Gravity affects a satellite launch by pulling the satellite towards the Earth during its initial phase of ascent. This requires the rocket to generate enough thrust to overcome gravity in order to reach the desired orbit. Once the satellite is in orbit, gravity continues to affect its trajectory, helping to keep it in orbit around the Earth.
Actually the gravity cannot affect the suns movement. But without gravity, every planet would stop orbiting and sail off out of here in a straight line.
By knowing precisely the masses of nearby objects, it is possible to calculate quite accurately how gravity will affect a satellite.
Yes. It makes things fall. Answer2: Gravity establishes the orbiting velocity, v2 = GM/r.
You know that no planets actually orbit the earth right? ...?
It has to get up to 7km a second to get out of earth's orbit, then it orbits around earth.
There is no such thing as 'zero gravity,' as even if you went a million lightyears away from an object, it's gravity would still have a minor affect on you. The only way to feel no gravity from an individual body such as the earth is to be in free fall. This is why the astronauts orbiting the earth dont feel its gravity, as contrary to popular belief, orbiting is actually just free falling at an angle where you constantly miss the object you are orbiting. Hope this helped!
The simplest and best answer to that question is: -- Without gravity, there would be no orbits. -- Once you completely understand gravity, you can figure out everything there is to know about orbits, because it all comes from the behavior of gravity.
they affect each other, as well as orbiting the sun as a unit , they pirouette around a common centre of gravity located between them
Doubling the mass of a satellite would result in no change in its orbital velocity. This is because the orbital velocity of a satellite only depends on the mass of the planet it is orbiting and the radius of its orbit, but not on the satellite's own mass.
The main force acting on a satellite is the gravitational force from the planet or celestial body it is orbiting. This force keeps the satellite in orbit and prevents it from flying off into space. Other forces, such as atmospheric drag or solar radiation pressure, can also affect a satellite's motion.