The Sun is much more massive than the Earth. The Sun's mass is about 330,000 times greater than the Earth's mass.
If you increase the mass of the Earth and decrease the mass of the Sun, the gravitational pull between the Earth and the Sun would change. This could potentially alter the orbits of the planets in our solar system and have significant effects on the stability and dynamics of the entire system.
Earth orbits the sun due to the force of gravity. Gravity is the attraction between two objects with mass, and the sun's gravity pulls Earth towards it, causing Earth to move in a circular path around the sun.
A new moon occurs when the moon is positioned between the Earth and the sun, making it appear dark in the sky. A solar eclipse happens when the moon passes directly between the Earth and the sun, blocking the sun's light and casting a shadow on Earth.
To find the magnitude of the gravitational force of attraction between the Earth and the Sun, you need to know the masses of the Earth and the Sun, as well as the distance between their centers. This can be calculated using Newton's law of universal gravitation: F = G * (m1 * m2) / r^2, where F is the gravitational force, G is the gravitational constant, m1 and m2 are the masses of the objects, and r is the distance between their centers.
If it were not for the Earth's pull of gravity the moon would fly away from the Earth. The moon's pull of gravity on the Earth causes the tides.
The weight of the Sun is about 333,000 times the weight of the Earth. This is because the Sun is much larger and more massive than the Earth. The Sun's mass is approximately 333,000 times that of Earth.
No, the center of mass between Earth and the sun is not exactly halfway between the two because the sun is much more massive than Earth. The center of mass is closer to the center of the sun, but it is not exactly at the halfway point.
The difference in mass
If the mass of the Sun is reduced, the gravitational force it exerts on the Earth would weaken. This would cause the Earth's orbit to expand slightly, as the balance between the gravitational force and the Earth's velocity would be disrupted. However, the change would be very small given the massive size difference between the Sun and Earth.
Difference between what? See related question
Fancy boy
The gravitational force between two objects is proportional to the product of their masses. (sun's mass) times (earth's mass) is a very large number. (sun's mass) times (my mass) is a much smaller number.
1. The earth has greater mass 2. the earth is closer to the sun
Yes, the gravitational force exerted by the Sun is much greater than that of the Earth. The Sun's mass is significantly larger than the Earth's, resulting in a stronger gravitational pull. This gravitational force is what keeps the planets in orbit around the Sun.
Earth is a Planet. Moon is a satalite. Sun is a meduim sized star.
The gravitational force between two objects is determined by their masses and the distance between them. Venus is closer to the sun than Earth, so the gravitational force between Venus and the sun is greater. Additionally, Venus has a similar mass to Earth, so the gravitational force between Venus and the sun is further influenced by the mass of Venus.
Its mass.