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Will acceleration due to gravity change the weight of an object?
Yes. As acceleration due to gravity increases so does the object's weight. The reverse is true when gravity decreases. Mass, however, does NOT change with gravity.
Can water defy gravity and climb uphill?
You can take it up in a pail, for example. In general, if there is another force which is (at least locally) stronger than gravity, it can take water uphill. WITHOUT such additional forces, no, this isn't possible.In general, you need energy to push something up, against the pull of gravity; you need to get this energy from SOMEWHERE.
What is the line called between gravity and no gravity?
Sorry; there is no line between gravity and no gravity. Gravity is everywhere.
Can a direction of velocity of an object reverse at constant acceleration?
Sure. A pendulum and a park swing both have constant acceleration due to gravity, and the direction of their velocity changes over and over again until they're stopped.
Why is gravity called gravity and not anything else?
Because, the person who discovered gravity was named Gravity Dickakiss
Why are the Himalayan mountains reverse fault?
becauuse of the gravity of the earth
Why are Himalayan mountains reverse mountains?
becauuse of the gravity of the earth
Difference between normal fault and reverse fault?
The movement of the Hanging wall in the normal fault downward with the gravity whereas in the Reverse fault the hanging wall moved upward against the gravity
Will acceleration due to gravity change the weight of an object?
Yes. As acceleration due to gravity increases so does the object's weight. The reverse is true when gravity decreases. Mass, however, does NOT change with gravity.
Could you reverse the effect of black holes to power cars?
Black holes are hugely dense objects that nothing can control. Containing one as to change its properties to push and not pull is just impossible. Black holes are dense so they have a lot of gravity. That's the gravity that sucks stars, planets, and anything else in. To reverse its effect would be to reverse gravity, which is impossible in our universe. But as to your question. It could be done, just in a place where the laws of gravity are reversed.
Can there be a polar shift in this lifetime?
Poler shifts actually are impossible because the gravity on the earth and the gravity would be to great for earth to reverse the other direction
Do flying sausers reverse the pull of gravity?
They might do it when they are in a planet's orbit, but on space they use nuclear propulsion.
Theoretically could a human fly unaided Fro example if we found a way to reverse the effects of gravity within our bodies?
If you are allowing that we might reverse gravity then 'theoretically' anything else is possible. But, if all we could do is reverse, or negate, the effect of gravity we would float and hover. We would not be able to truly fly, as we have no means of self-propulsion through the air. Now, if we could grow feathers, and lighten our bones, and build muscles strong enough to power our feathered arms.....
How does gravity affect the weight of matter?
It's a very direct relationship; weight is caused by gravity. weight = mass x gravity Therefor, if gravity goes up and mass stays constant weight, goes up. And the reverse is true if gravity goes down and mass stays constant, weight goes down.
Why are the planets circle not square?
If they were square, then everything would be hard. If you stood on a vertex (corner), you would probably have reverse gravity and fall of the face of the earth.
If a car is parked but actually in reverse gear will it roll backwards?
If the handbrake isn't on and something is pushing it backwards (gravity, another car, etc.) then yes. Cars don't roll on their own.
Can water defy gravity and climb uphill?
You can take it up in a pail, for example. In general, if there is another force which is (at least locally) stronger than gravity, it can take water uphill. WITHOUT such additional forces, no, this isn't possible.In general, you need energy to push something up, against the pull of gravity; you need to get this energy from SOMEWHERE.
