hahhahahaha lol i have that sheet too, i don't know if it's right (i doubt it is lol) but I put 'the earth has a great gravational force pulling everything in this means that the earth can't be in the middle because of the gravity elsewhere...
lol if you know anything better as an answer, tell me plz, lol ;)
Gravitational attraction is proportional to mass.
The gravitational attraction between planets and the Sun is dependent on their masses and the distance between them. According to the law of universal gravitation, this attraction is stronger when the masses are larger and closer together, resulting in the planets orbiting the Sun in stable paths.
The gravitational attraction between two planets is described by Newton's Law of Universal Gravitation, which states that the force is inversely proportional to the square of the distance between their centers. If the distance between the two planets is increased by a factor of 3, the gravitational attraction decreases by a factor of (3^2) or 9. Therefore, the new gravitational attraction will be only one-ninth of the original force when the distance is increased by 3.
Any mass in the Universe exerts a gravitational attraction. This applies to black holes, as well as other objects such as galaxies, stars, planets, etc. This gravitational attraction never stops, no matter how far you go away. However, if you go very far away, the gravitational attraction gets insignificant for most practical purposes.Any mass in the Universe exerts a gravitational attraction. This applies to black holes, as well as other objects such as galaxies, stars, planets, etc. This gravitational attraction never stops, no matter how far you go away. However, if you go very far away, the gravitational attraction gets insignificant for most practical purposes.Any mass in the Universe exerts a gravitational attraction. This applies to black holes, as well as other objects such as galaxies, stars, planets, etc. This gravitational attraction never stops, no matter how far you go away. However, if you go very far away, the gravitational attraction gets insignificant for most practical purposes.Any mass in the Universe exerts a gravitational attraction. This applies to black holes, as well as other objects such as galaxies, stars, planets, etc. This gravitational attraction never stops, no matter how far you go away. However, if you go very far away, the gravitational attraction gets insignificant for most practical purposes.
The gravitational force exerted by the Sun keeps all the planets in their orbits. This force balances the planets' tendency to move in a straight line and keeps them moving in elliptical orbits around the Sun.
Gravitational attraction is proportional to mass.
The gravitational attraction from our Sun holds the planets in orbit.
The gravitational attraction between planets and the Sun is dependent on their masses and the distance between them. According to the law of universal gravitation, this attraction is stronger when the masses are larger and closer together, resulting in the planets orbiting the Sun in stable paths.
By accretion, through gravitational attraction and collision.
because of gravitational force of attraction between the earth and other planets
That force is called gravity.
The gravitational attraction between two planets is described by Newton's Law of Universal Gravitation, which states that the force is inversely proportional to the square of the distance between their centers. If the distance between the two planets is increased by a factor of 3, the gravitational attraction decreases by a factor of (3^2) or 9. Therefore, the new gravitational attraction will be only one-ninth of the original force when the distance is increased by 3.
The gravitational attraction by the Sun.
Planets orbit around the sun due to gravitational attraction. The sun's gravitational pull keeps the planets in their orbits, while the planets also exert a gravitational force on the sun, causing it to wobble slightly. The sun provides the heat and light necessary for the planets to sustain life.
The force is provided by the Sun's gravitational attraction.
Any mass in the Universe exerts a gravitational attraction. This applies to black holes, as well as other objects such as galaxies, stars, planets, etc. This gravitational attraction never stops, no matter how far you go away. However, if you go very far away, the gravitational attraction gets insignificant for most practical purposes.Any mass in the Universe exerts a gravitational attraction. This applies to black holes, as well as other objects such as galaxies, stars, planets, etc. This gravitational attraction never stops, no matter how far you go away. However, if you go very far away, the gravitational attraction gets insignificant for most practical purposes.Any mass in the Universe exerts a gravitational attraction. This applies to black holes, as well as other objects such as galaxies, stars, planets, etc. This gravitational attraction never stops, no matter how far you go away. However, if you go very far away, the gravitational attraction gets insignificant for most practical purposes.Any mass in the Universe exerts a gravitational attraction. This applies to black holes, as well as other objects such as galaxies, stars, planets, etc. This gravitational attraction never stops, no matter how far you go away. However, if you go very far away, the gravitational attraction gets insignificant for most practical purposes.
It was Nicholas Copernicus. who discovered that the sun keeps the planets one Their orbit.