-- the massses of the two masses that are being pulled together by gravity
-- the distance between them
The mass of the two objects and the distance between their centres of gravity.
Four factors that determine the location, size, shape, and direction of a gyre are wind, gravity, Coriolis Effect, and topography.
The force of gravity is determined by (a) the masses involved, and (b) the distance between the masses. Of course, in the case of a planet for example, you can determine the mass if you know its average density and its size. Note that for a homogeneous sphere, the force of gravity on an object outside the planet is the same as if all mass were concentrated in the center.
The quantity of charge on each object and the distance between them.
There is no difference. Gravity and gravitational force are simply two different ways of describing force by which bodies pull on each other relative to their size (gravity!).
The mass of the two objects and the distance between their centres of gravity.
Four factors that determine the location, size, shape, and direction of a gyre are wind, gravity, Coriolis Effect, and topography.
Factors that determine the force of an eruption are magma viscosity and gas content.
The force of gravity is determined by (a) the masses involved, and (b) the distance between the masses. Of course, in the case of a planet for example, you can determine the mass if you know its average density and its size. Note that for a homogeneous sphere, the force of gravity on an object outside the planet is the same as if all mass were concentrated in the center.
Factors that determine sample size
There is no difference. Gravity and gravitational force are simply two different ways of describing force by which bodies pull on each other relative to their size (gravity!).
The quantity of charge on each object and the distance between them.
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There is no difference. Gravity and gravitational force are simply two different ways of describing force by which bodies pull on each other relative to their size (gravity!).
Since gravity is basically a force then, it is determined by both mass and size. Also weight.
The larger the mass of the planet, the greater the force of its gravity.
mass and distance from one another; G=m1*m2/d^2