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A star has a planet held in orbit by gravitational attraction if the mnass of the star were doubled what effect would this have on the gravitational attraction between the star and its planet?
Double the mass means double the attraction in this case.Double the mass means double the attraction in this case.Double the mass means double the attraction in this case.Double the mass means double the attraction in this case.
A star has a planet held in orbit by gravitational attraction If the distance between the star and the planet were 3 times as great what effect would this have on their gravitational attraction for?
If the distance between the star and the planet were 3 times as great, their gravitational attraction for each other would decrease by a factor of 9 (3 squared). The force of gravity between two objects is inversely proportional to the square of the distance between their centers.
The force of gravitation between two objects is 500 Newtons. the mass of one of the bodies doubled what would the new force of gravitational attraction be?
If the mass of one of the bodies is doubled, the force of gravitational attraction between the two objects would also double. Therefore, the new force of gravitational attraction would be 1000 Newtons.
If the distance between the star and planet were 3 times as great what effect would this have on their gravitational attraction for each other Explain?
If the distance between the star and planet were 3 times greater, the gravitational attraction between them would be inversely proportional to the square of the new distance. This means the gravitational force would be 1/9th of what it was originally. Gravity follows an inverse square law, so as the distance increases, the gravitational force decreases rapidly.
If the mass of the star were doubled what effect would this have on the gravitational attraction between the star and its planet?
Doubling the mass of the star would increase the gravitational attraction between the star and its planet. The force of gravity is directly proportional to the product of their masses, so doubling the mass of the star would double the gravitational force between them.
What would happen to the force between two objects being pulled together by a gravitational attraction?
Nothing, the force in question IS gravitational attraction.
What would have the greatest gravitational attraction between the two masses?
The gravitational attraction between two masses depends on their masses and the distance between them. If the masses are large and close together, they would have the greatest gravitational attraction.
What would be the greatest force of gravitational attraction?
The force of gravitational attraction between two objects is strongest when their masses are large and they are very close together. For example, a planet and a star or two massive celestial bodies would experience a strong gravitational attraction between them.
When gravitational attraction between two objects would increase if both masses are?
If both masses increase, the gravitational attraction between the two objects would also increase. This is because gravitational attraction is directly proportional to the masses of the objects involved. The greater the mass, the stronger the gravitational force between the objects.
If the sun collapsed to become a black hole the earths gravitational attraction to it would be?
if the sun turned into a black hole we would be gone in seconds... it wouldn't matter Another answer: The Earth gravitational attraction would remain the same. Sun's gravitational attraction would also remain the same. Why? Because their mass would remain the same.
A star has a planet held in orbit by gravitational attraction if the mnass of the star were doubled what effect would this have on the gravitational attraction between the star and its planet?
Double the mass means double the attraction in this case.Double the mass means double the attraction in this case.Double the mass means double the attraction in this case.Double the mass means double the attraction in this case.
What would happen to the earths tide if the moon was further away?
High tides would be smaller and low tides would be bigger, but would still occur. The cause of the tides is the gravitational attraction between the earth and moon, and to a lesser extent, between the earth and sun. If the moon were further from the earth, its gravitational attraction would be less strong, and its effect on the earth's liquid envelope would be correspondingly less.
What would cause the gravitational attraction between a star and a planet increased?
Huh?
What effect would increasing the mass of two object have on gravitational attraction between them?
Increasing the mass of two objects would increase the gravitational attraction between them. According to Newton's law of universal gravitation, the force of gravity between two objects is directly proportional to the product of their masses. Therefore, as the mass of the objects increases, the gravitational force between them also increases.
A star has a planet held in orbit by gravitational attraction If the distance between the star and the planet were 3 times as great what effect would this have on their gravitational attraction for?
If the distance between the star and the planet were 3 times as great, their gravitational attraction for each other would decrease by a factor of 9 (3 squared). The force of gravity between two objects is inversely proportional to the square of the distance between their centers.
The force of gravitation between two objects is 500 Newtons. the mass of one of the bodies doubled what would the new force of gravitational attraction be?
If the mass of one of the bodies is doubled, the force of gravitational attraction between the two objects would also double. Therefore, the new force of gravitational attraction would be 1000 Newtons.
If the distance between the star and planet were 3 times as great what effect would this have on their gravitational attraction for each other Explain?
If the distance between the star and planet were 3 times greater, the gravitational attraction between them would be inversely proportional to the square of the new distance. This means the gravitational force would be 1/9th of what it was originally. Gravity follows an inverse square law, so as the distance increases, the gravitational force decreases rapidly.
