It forms folded mountains
If an object is moving at a constant speed, the forces acting on it are balanced. This means that the forces pushing in one direction are equal to the forces pushing in the opposite direction, resulting in no change in the object's speed or direction.
The forces acting on a moving object include: gravity, friction, air resistance, and any applied forces such as pushing or pulling. These forces can affect the speed, direction, and motion of the object.
that they are greater than the forces keeping the rock from moving...
Some forces that can act upon a moving object include friction, air resistance, gravity, and applied forces like pushing or pulling. These forces can affect the speed, direction, and motion of the object.
when any object is not moving there is at least two forces acting on it.....there are actually probably more. think of a ball....if one force is "pushing" it from behind and another force of the same strength is "pushing" it in the other direction from the front....then the object can't move.
Momentum- a moving object tends to keep moving. Friction- pushing air out of the way slows it down. Gravity- pulls it down
When a heavy desk is not moving, the main forces acting on it are the gravitational force pulling it downward and the normal force pushing back up from the ground to support its weight. These two forces are in equilibrium, which is why the desk remains stationary.
Centripetal forces are inward forces that keep an object moving in a circular path, while centrifugal forces are outward forces that act in the opposite direction, pushing objects away from the center of rotation.
The wheelbarrow is not moving because the forces are balanced, resulting in no net force.
When a car is not moving, the main forces acting on it are gravity pulling it downward and the normal force from the ground pushing upward to support the car's weight. There may also be frictional forces between the tires and the road, as well as air resistance acting on the car.
Normal faults are caused by tensional forces pulling rocks apart, leading to the hanging wall moving down relative to the footwall. Reverse faults are caused by compressional forces pushing rocks together, leading to the hanging wall moving up relative to the footwall.
If the freezer is stationary or moving at a constant velocity, then yes, there are balanced forces acting on it. The forces pushing the freezer forward or backward are equal in magnitude and opposite in direction, resulting in a state of equilibrium.