From what I know, Force of Gravity always acts in the vertically downward direction.
Because of gravity it will hang in the one direction of gravity and not change unless you apply a force to it
The force of gravity acts towards the center of mass of the object in question.
Gravity is a force and any force acting on a body changes its velocity in the direction of the force.
what is the work done if we apply a 1.2N force and we move 4 m in the direction of force
The most usual downward force is the force of gravity; the weight of an object exerts force in a downward direction. There are also other forces which can be exerted in that direction. If you wanted to, you could fire a gun in a downward direction, in which case the explosive force of the gun is added to the force of gravity.
how is the force of gravity diffrerent from the force you apply when you push or pull something
The force of gravity will change the satellites direction, and therefore its velocity.
gravity
Force is a vector quantity. It has both magnitudeand direction.Let's look at a something and think about it. If you apply a force to something in an attempt to move it, the force will have to have direction associated with its magnitude. It must have direction. It doesn't make sense for force to not have direction. Gravity is a force of attraction between masses. A ball falls because the earth attracts it, and it falls down. That's the direction vector associated with gravity.
Yes. It results in a force that has a magnitude and a direction, and this is the definition of a force vector.
Friction acts in the opposite direction that the object is moving or trying to move. The force of friction is calculated by multiplying the normal force of the object, usually mass times gravity, by the coefficient of friction.
Exactly one direction . . . between the centers of the two masses that are being drawn together by gravity.