yes, due to heeling.
Gravity can depend on how far apart and how heavy the objects are.
Gravitational acceleration is a constant value for a celestial body, and doesn't depend on air resistance/friction. The value on Earth is constant anywhere on Earth, just like the value on Mars is constant anywhere on Mars. In practical,however, this is different. Air resistance lowers the value of gravitational acceleration.
Plants depend on the sun for energy. They will angle themselves so that their leaves get the maximum sun exposure. This is called phototrophic growth. Plants will grow towards the sun.
The movements involved with football depend on what position you are dealing with. Some positions move around running and catching the ball, while the quarterback throws the ball, and other players spend their time blocking or tackling people.
There is not one single answer for that. The terminal velocity of an object will depend on the amount of gravity (which wouldn't change much in this case), on the density of the atmosphere (which WILL change quite a bit, depending on what part of the atmosphere you are considering), and on the object's mass, size, and shape.
yes. from curtin student
Gravity
As compared to Earth, you mean? If an object doesn't change its shape, the center of mass doesn't depend on gravity - and the center of gravity hardly does so.
If the lamina is in two dimensions (i.e. not curled round into a third dimension) then the centre of gravity will be somewhere within the flat shape. The position of the centre of gravity will depend on the distribution of mass across the lamina. If the lamina is curled round into a third dimension then the centre of gravity will be somewhere within the volume enclosed, fully or partially, by the lamina; this may or may not be on the lamina.
The mass of the planet, and the distance from the center of gravity. Gravitational pull is a relation between the mass of two bodies and their distance apart.
-- its length (from the pivot to the center of mass of the swinging part) -- the local acceleration of gravity in the place where the pendulum is swinging
Gravity does not depend on density. Gravity is the gravitational pull that is invisible and cannot be touched or changed. Density is how much matter is packed within an object, which can be changed. Gravity and density are two totally different things, and are in no way related, therefore gravity does not depend on density.
Center MidfieldBut it could depend on a players work ethnic, how much they run, and where they go
gravity
on chet
acceleration due to gravity is given by, g=GM/R2 Hence distance from the earth increases g decreases and viceversa. So g at poles is greater than g at equator.
YES! The bigger or more dense the planet is, the higher the force of gravity.