The cart stays where it is and doesn't move.
Gravity & Friction & support
Gravity, Friction and Mass
It is the gravitational force. Mostly gravity and static friction. Friction is a manifestation of the electromagnetic force.
Gravity and friction come to mind . . .
Gravity is the force that is pulling you down. However, friction is acting against gravity to keep you in place, since you are rubbing against the slide. So the quick answer would be friction.
Gravity, friction, momentum
Usually gravity and friction.
Gravity & Friction & support
Gravity, Friction and Mass
The forces acting on the bike is gravity, air resistance and friction.
It is the gravitational force. Mostly gravity and static friction. Friction is a manifestation of the electromagnetic force.
Gravity and friction come to mind . . .
centripital motion, gravity, friction, ect.
Gravity and friction
Gravity is the force that is pulling you down. However, friction is acting against gravity to keep you in place, since you are rubbing against the slide. So the quick answer would be friction.
force of friction= coefficient of friction x force of normal force of normal is mass x whatever force that is acting on it (usually gravity)
If the speed is constant, then the group of forces acting on the object is balanced. So the portion of the force acting in the direction of the motion must be equal and opposite to the force of friction.