Electrical or magnetic forces are far more powerful than gravitational forces, but diminish far more rapidly with increasing distances. Over ranges of a few centimeters to a couple of meters, electrical forces are quite powerful, but for distances of hundreds or thousands of kilometers, electrical forces are vanishing small.
Gravitational forces are weaker, but the diminishing effect with distance is much less. So over interplanetary or interstellar distances, gravity is the ONLY force of any importance.
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When working on anything electrical in a car, it is imperative to have a diagram. A diagram of the cooling fan wiring to a 1996 Mustang can be found in its maintenance manual.
Freezer baskets can beordered as spares through major electrical appliance retailers, or often through the website of the freezer manufacturer. Alternatively, you could order one from ebay.
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They are sort of unrelated; gravity is caused by masses, electrical forces are caused by electrical charges. Scientists are still trying to find a single underlying principle that explains all four basic forces of nature.Both gravity and electrical forces act at arbitrarily large distances. Both have an inverse-square law. Gravity can only be attractive. Electrical forces can be both attractive and repulsive.
If you could do the measurements at the same distance from both planets, you'd find that the gravitational forces between you and Uranus would be about 14.5 times as strong as the forces between you and the Earth.
If you could do the measurements at the same distance from both planets, you'd find that the gravitational forces between you and Jupiter would be about 318 times as strong as the forces between you and the Earth.
If you could do the measurements at the same distance from both planets, you'd find that the gravitational forces between you and Venus would be about 19 percent less than the forces between you and the Earth.
If you could do the measurements at the same distance from both planets, you'd find that the gravitational forces between you and Venus would be about 19 percent less than the forces between you and the Earth.
If you could do the measurements at the same distance from both planets, you'd find that the gravitational forces between you and Mars would only be about 11 percent as strong as the forces between you and the Earth.
The gravitational forces between two objects depend on the masses of both of them, and also on the distance between the two objects. There's no such thing as the "gravitational pull" of a single object. If you keep the same 'test object' in both situations, AND measure the gravitational forces at the same separation distance between them, then the gravitational forces between your test object and the star will be greater than those between the test object and a tall building. But if you allow your experimental conditions and protocol to become sloppy, then you can certainly find an object that will be attracted toward a tall building with more force than another object is attracted toward a star at the same distance, and you can certainly find a distance from the tall building where an object is attracted to it with more force than the same object toward a star at a different distance.
The gravitational constant was found by Newton, not Einstein.
the earth's gravitational pull is just strong enought to keep it in orbit, but not strong enought, at that distance, to pull it back to earth
The gravity on the surface of Venus is 0.904 of that on the surface of Earth. You may find the related link below useful.
There are many different ways of using electricity, and you can put an objecton a circular path if that is what you wish to do.=================================The math that describes the electrical forces between charges is identical to themath that describes the gravitational forces between masses. If you could get awayfrom having lots of other stuff around you, like in space, and if NASA would let youplay for a while during your "space walk", and if you had a bunch of charged objectsout there with you, you could construct a miniature solar system, with the orbitssupported by electrical force instead of gravitational force. I have always wantedto do that, but it's beginning to appear unlikely.By the way ... you can also find some material on-line that describes the high-energyparticle accelerators that race protons and electrons around and around throughmiles of circular pipe in those gigantic underground tunnels before they collide them.Sound relevant, eh ?
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