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What is the force that keeps planets orbiting star and satellites orbiting planets?
The force is called gravity. It is a force that works both ways, i.e. when the Sun's gravity operates on a planet, there isan equal an opposite force acting the other way but the Sun is so massive it hardly moves, because force equals mass times acceleration, so if mass is large the acceleration is low.
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Which force is responsible for making planets and satellites travel in near circular orbits?
Gravity is the force responsible for making planets and satellites travel in near circular orbits around a central body, such as the Sun or a planet. The gravitational pull between the central body and the orbiting object keeps it in a stable, elliptical path.
A force that keeps planets in orbit?
The force that keeps planets in orbit is gravity. Gravity is the attractive force that exists between two masses, such as a planet and a star, that causes them to be drawn towards each other. In the case of planets orbiting a star, gravity keeps the planets in their elliptical paths around the star.
What is the driving force that keeps planets orbiting a star?
The driving force that keeps planets orbiting a star is gravity. The star's massive gravitational pull attracts the planets, keeping them in their orbits. Additionally, the planets' own orbital velocity creates a balance between the gravitational pull and their tendency to move in a straight line, resulting in stable orbits around the star. This interplay of gravitational force and motion is described by Kepler's laws of planetary motion and Newton's law of universal gravitation.
What force keeps the planets and other celestial bodies orbiting around the sun?
The force that keeps planets and other celestial bodies orbiting around the Sun is gravity. The Sun's immense mass generates a strong gravitational pull, which attracts these bodies and keeps them in elliptical orbits. This gravitational interaction is governed by Newton's law of universal gravitation, which states that the force of gravity is proportional to the masses of the objects involved and inversely proportional to the square of the distance between them.
What force keeps planets and moons going in orbits?
Gravity is the force that keeps planets and moons in orbit. The gravitational pull between the planet or moon and the object they are orbiting around, typically a star like the sun, is what keeps them moving in a stable path. This balance between the gravitational force and the object's inertia causes them to continuously orbit in a closed path.
Which force is responsible for making planets and satellites travel in near circular orbits?
Gravity is the force responsible for making planets and satellites travel in near circular orbits around a central body, such as the Sun or a planet. The gravitational pull between the central body and the orbiting object keeps it in a stable, elliptical path.
A force that keeps planets in orbit?
The force that keeps planets in orbit is gravity. Gravity is the attractive force that exists between two masses, such as a planet and a star, that causes them to be drawn towards each other. In the case of planets orbiting a star, gravity keeps the planets in their elliptical paths around the star.
Why do planets and satellites orbit the sun?
Planets and satellites orbit the sun due to the gravitational pull of the sun. This gravitational force keeps them in their respective orbits as they move through space. The balance between the inertia of the planets/satellites and the gravitational force of the sun results in stable orbits.
What keeps us from floating off into the sky and keeps the planets in orbit around the sun?
Gravity is the force that keeps us grounded on Earth and planets in orbit around the sun. Gravity is a pulling force that attracts objects with mass towards each other. In the case of planets orbiting the sun, the gravitational force from the sun keeps them in their respective orbits.
The earths gravity keeps the planets circling the sun?
Actually, it's the gravity of the sun that keeps the planets in orbit around it. The force of gravity between the sun and the planets causes them to be pulled towards the sun, while their momentum keeps them moving in a circular or elliptical path.
Could you name the forces the earth to orbit the sun?
The force of gravity keeps the Earth (and all the other planets) orbiting the Sun.
The pull of the sun that keeps the planets in their places?
The Sun's Gravitational pull keeps the planets orbiting it, not flying into deep space.
What force keeps the planets in rotation?
The force that keeps all of our planets in rotation is gravity.
What is the driving force that keeps planets orbiting a star?
The driving force that keeps planets orbiting a star is gravity. The star's massive gravitational pull attracts the planets, keeping them in their orbits. Additionally, the planets' own orbital velocity creates a balance between the gravitational pull and their tendency to move in a straight line, resulting in stable orbits around the star. This interplay of gravitational force and motion is described by Kepler's laws of planetary motion and Newton's law of universal gravitation.
What force keeps the planets and other celestial bodies orbiting around the sun?
The force that keeps planets and other celestial bodies orbiting around the Sun is gravity. The Sun's immense mass generates a strong gravitational pull, which attracts these bodies and keeps them in elliptical orbits. This gravitational interaction is governed by Newton's law of universal gravitation, which states that the force of gravity is proportional to the masses of the objects involved and inversely proportional to the square of the distance between them.
What force keeps planets and moons going in orbits?
Gravity is the force that keeps planets and moons in orbit. The gravitational pull between the planet or moon and the object they are orbiting around, typically a star like the sun, is what keeps them moving in a stable path. This balance between the gravitational force and the object's inertia causes them to continuously orbit in a closed path.
An object that circles another object?
An object that circles another object is said to be in orbit around it. The object being circled is typically larger and exerts a gravitational force that keeps the circling object in its path. Examples of such objects include the Moon orbiting the Earth and planets orbiting the Sun.
