As the mass of a body or things is constant , the weight only depends on the the gravity 'g'. As the gravity increases with the decrease of the hight of the mass from the centre of the earth , the mass also increases with the decrease of hight from the centre of the earth.
The two factors that govern the torque or turning moment are her mass and the horizontal distance from the seesaw centre to her centre of gravity.
Usually the centre of gravity is at the centre of the object, scaling from both sides OR centre of mass where the object is stable when holding it up on a pin point
The factors on which pressure exerted by liquids depends are: 1. The density of the liquid 2. Acceleration due to gravity and 3. Depth of the point below the surface of the liquid.
centre of gravity
mass and distance
It need not be - it depends on what the three lines are!
As the mass of a body or things is constant , the weight only depends on the the gravity 'g'. As the gravity increases with the decrease of the hight of the mass from the centre of the earth , the mass also increases with the decrease of hight from the centre of the earth.
line of gravity, centre of gravity, base of support, postural tonus, joint mobility, balance(stability), coordinated movement
mass, centre of gravity, material smoothness of surface trying to create friction on, wet or dry surface.
Gravitational potential energy - it depends on the distance from the centre of gravity, so on Earth it depends on the height above the Earth's surface
It isn't. Gravity can be viewed as emanating from the centre of a body with mass. As the distance increases from the centre then the gravity decreases.
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.
gravity is a force by which objects are attracted to the centre of.
The two factors that govern the torque or turning moment are her mass and the horizontal distance from the seesaw centre to her centre of gravity.
The force depends on distance from the centre of gravity. If you are twice as far the gravity is one quarter as strong.
Gravity pulls it down to where it has the centre of gravity at its lowest, when moving the lowest possible centre of gravity changes so it moves around.