The force that causes the Earth to orbit the Sun is gravity. Gravity is the attraction between two objects with mass, and in the case of the Earth and the Sun, this gravitational force keeps the Earth in its elliptical orbit around the Sun.
Gravity combined with the object's "sideways" (tangential to its orbit) motion. The Sun "wants" to pull the object towards it and the object "wants" to fly of into space. When these two things are balanced the object is in a stable orbit.
The two reasons why Mars takes longer to orbit the Sun than Mercury are its greater distance from the Sun and its slower orbital speed due to its larger orbit. Mercury is much closer to the Sun and has a shorter orbit around it compared to Mars.
Gravitational force is a naturally occurring force related to two bodies in motion. It is the attraction between objects with mass and is responsible for keeping planets in orbit around the sun and objects on Earth's surface.
The gravitational force between the planet and the sun causes the planet to orbit the sun, keeping it in a continuous path. Additionally, the planet's inertia, or tendency to continue moving in a straight line, causes it to stay in motion around the sun.
NO, the orbit of any planet or moon is determined by the size of the two objects involved (example: the Earth and the Sun) and the distance between those two objects: the closer the objects are to each other and the bigger one of the objects is, the stronger the gravitational pull ( large objects have stronger forces on other smaller objects). The orbit of a planet has nothing to do with the Sun's heat.
The Earth orbits the Sun due to the gravitational pull between the two objects. This gravitational force keeps the Earth in its elliptical path around the Sun, maintaining its orbit.
Asteroids and comets are two examples of objects in the solar system besides moons and planets. Asteroids are rocky objects that orbit the Sun, mostly found in the asteroid belt between Mars and Jupiter. Comets are icy bodies that also orbit the Sun, with tails that form when they come close to the Sun.
The Earth orbits the Sun due to the gravitational pull between the two objects. This gravitational force keeps the Earth in its elliptical path around the Sun, maintaining its orbit.
The Earth orbits the Sun due to the gravitational pull between the two objects. This gravitational force keeps the Earth moving in a curved path around the Sun, following its orbit.
The force that causes the Earth to orbit the Sun is gravity. Gravity is the attraction between two objects with mass, and in the case of the Earth and the Sun, this gravitational force keeps the Earth in its elliptical orbit around the Sun.
No. The farther away you get from the sun, the slower the planets orbit. (and the sun looks smaller!). By the way, even if the planets were all moving at the same speed, they still wouldn't be lined up, because the distances traveled by planets with each revolution around the sun would be different. Therefore this question is reasonable. (this is another person) they do orbit more slowly, Newton's law of universal gravitation states that the larger the mass of the two objects and the closer together the objects are, the greater the force of gravity between the two objects.
There are two objects in the solar system named Io. One is an asteroid which orbits the sun. The better-known Io is a moon that orbits Jupiter.
All the planets in our solar system orbit the Sun, not the Earth.Mercury and Venus orbit between the Sun and the Earth's orbit.
Gravity is the natural force of attraction between two objects with mass. It is responsible for keeping planets in orbit around the sun and objects on Earth's surface.
Gravity combined with the object's "sideways" (tangential to its orbit) motion. The Sun "wants" to pull the object towards it and the object "wants" to fly of into space. When these two things are balanced the object is in a stable orbit.
Earth orbits the sun due to the gravitational pull between the two objects. The sun's massive size and gravitational force keep Earth in its orbit, causing it to revolve around the sun in a predictable path.