Yes, that's possible.
friction and gravity
The force of gravity, which pulls it down; and friction forces, which pull it up.
Because the frictional force must be greater than forces that would cause the object to move. Example: a car parked on a slope does not move despite the force of gravity acting to pull it down the hill. Why? Because the frictional forces are greater than the forces of gravity.
No, friction is the force between to objects created by gravity.
Friction force
Usually gravity and friction.
Gravity and friction.
Gravity, friction, momentum
Usually gravity and friction.
friction and gravity
Friction and Gravity are the two forces that affects an object's velocity. Friction is caused by both air and the surface on which an object is moving. Gravity is caused by Earth.
Gravity and friction there are others also like magnetism for example..
The force of gravity, which pulls it down; and friction forces, which pull it up.
Depending on the scenario the forces act on the object when there is actually a force being acted on it? Gravity is always acting on objects (unless space) Friction acts on object as long as object is moving on a surface with friction There are a bunch of other forces but these are just examples
Unbalanced Forces will try to create Motion (Kinetic Energy), balanced Forces do not result in Motion. Gravity, Inertia, and Friction will all try to resist the Motion of the object....unless the Force is in the direction of the Gravitational attraction, then the affect is additive.
However many there are exerted on the object. Usually there is gravity, friction, and another force exerted on the object.
The forces that affect the rate of a falling object are Gravity and Air Resistance. Gravity affects the speed and the velocity of the object by speeding it up as it falls closer to the earth, and Air resistance works against the object pushing against it.