If they're 6 feet higher and lower from each other and you drop them both at the
same time, then the lower one hits the ground first.
If they're 6 feet left and right from each other but the same height off the ground
and you drop them both at the same time, then they both hit the ground at the
same time.
Gravity is a pair of forces between masses. The strength of the forces depends on the masses of the masses and the distance between them. It doesn't depend on their motion, except that it may be getting larger or smaller over time if they're moving closer together or farther apart.
No.Mass is always the same, unless broken apart from one another.
The 2 masses and their distance apart
There is evidence of the movement if the earths crust all over the world. The fact that if you look on a map you will see that South America and Africa look like they fit together like a puzzle. There have also been identical fossils found on different continents which enforces the fact that the land masses were once joined and have infact MOVED apart. If there is an earthquake fissures can form which are cracks in the ground where the ground has MOVED apart.
When continents break apart into separate land masses, it is called continental drift or plate tectonics. This process is driven by the movement of the Earth's lithospheric plates.
continental drift
Continental Drift
Continental Drift.
When continents break apart into separate land masses, it is called continental drift. This process is driven by the movement of tectonic plates in the Earth's lithosphere.
When continents break apart into separate land masses, it is called continental drift. This is typically the result of tectonic plate movements beneath the Earth's surface, leading to the gradual separation of once-connected land masses over millions of years.
Each two point masses in the universe have a force of attraction between the center of there masses, directionally proportional to the sum of there masses, and inversely proportional to there distance apart
The gravitational force between the two 100kg masses is 16,681.511N