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That is called gravitational potential energy.
that would be gravity Fg = Gm1m2/r^2
The Earth's gravitational field and gravitational potential energy are really two quite different things. The relationalship is the following: Gravitational potential energy = mass x gravity x height Where gravity is the acceleration due to gravity - near Earth's surface, that's 9.8 meters/second2 - or the equivalent, weight per unit mass (which near Earth's surface is 9.8 newton/kilogram).
Gravitational potential energy is: m*g*h m=mass g=acceloration due to gravity h=height in relation to zero level/energy because earth's surface (with rare exception) is zero level/energy, meaning that you cant make things fall further than the surface of earth; the potential energy of an object changes based on how much distance you put between the surface and the object, yes.
8km/s
Gravitational potential energy.
That is called gravitational potential energy.
because the value of gravitational force of earth is greater than that of moon.
that would be gravity Fg = Gm1m2/r^2
The Earth's gravitational field and gravitational potential energy are really two quite different things. The relationalship is the following: Gravitational potential energy = mass x gravity x height Where gravity is the acceleration due to gravity - near Earth's surface, that's 9.8 meters/second2 - or the equivalent, weight per unit mass (which near Earth's surface is 9.8 newton/kilogram).
nitrogen is brought to earths surface by the gravitational pull of zero gravity
Gravitational potential energy is: m*g*h m=mass g=acceloration due to gravity h=height in relation to zero level/energy because earth's surface (with rare exception) is zero level/energy, meaning that you cant make things fall further than the surface of earth; the potential energy of an object changes based on how much distance you put between the surface and the object, yes.
8,9 m/s2 The gravitational attraction on the surface of Venus.
The two variables that determine gravitational potential energy are height above earths surface mass (also air resistance may come into play but in physics friction and air resistance are usually ignored and)
The weight of any object on the surface of the moon is 16.55% of its weight on the surface of the Earth.
8km/s
Force (newtons) = mass (kg) * acceleration (m/s/s) > Acceleration at earths surface radius = 9.82 m/s/s