Gravitational pull is so the planets keep orbiting around the sun because of its gravitational pull
The gravitational potential energy can be calculated using the formula: mass x gravity x height. In this case, the mass is 14 kg, acceleration due to gravity is 9.8 m/s^2, and the height is 2m. Plugging these values into the formula gives 14 kg x 9.8 m/s^2 x 2m = 274.4 Joules.
The unit of intensity of gravitational field is newtons per kilogram (N/kg), while the unit of gravitational potential is Joules per kilogram (J/kg).
to pull = tirer
Force can be either a push or a pull. When you push a door open or pull a rope, you are applying a force in that direction.
Waves carry energy because as they move through a medium, they cause particles in the medium to oscillate or vibrate. This vibration transfers energy from one particle to the next, allowing the wave to propagate while carrying the energy along with it.
Earths is 9.78 and neptunes is 8.7
In my opinion because of the rotation of the earth. Gravatational pull
A bathroom scale does that job very well.
Nope. Plus it wouldn't be possible due to the fact that the sun or solar is more than 10,000 times bigger than Earth. The bigger something is the bigger the gravatational pull. so lets say you chucked a fat kid into out of space. He would probably have a few astroids orbiting him when he got back becasue he is so massive!
No because of the suns gravatational pull but maybe if the sun explodes 5-10 million years
depend on how big or small the object is, the greater the more gravtational pull it has, smaller the object is less gravatational pull it has. if the object changes mass well that when the gravitatonal pull becomes either stronger or weaker, but all depends.
depend on how big or small the object is, the greater the more gravtational pull it has, smaller the object is less gravatational pull it has. if the object changes mass well that when the gravitatonal pull becomes either stronger or weaker, but all depends.
because the gravatational pull from the sun and other planets keep the planets going in a circler motion and not bumping into each other.Answerbecause the gravatational pull from the sun and other planets keep the planets going in a circler motion and not bumping into each other. the planets each have defined Elliptical, not circular, orbits that remain constant because of gravitational pull of the sun and from each other. Pluto does have such an elliptical orbit that for a time it was closer than Neptune, but they will never collide with their current paths.
Joule
The gravitational pull of Earth's moon is about 1/6th that of Earth. This pull is what causes tides on Earth and keeps the moon in orbit around our planet. It also affects the Earth's rotation and the tilt of its axis.
gravatational forces' friction forces, .
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