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Does an object move in the same direction as the force?

Does an object move in the same direction as the force?

The net force is always in the same direction as the acceleration. For objects moving in circles at constant speed, the net force is directed towards the center of the circle about which the object moves.

Is the motion of an object always in the direction of resultant force?

For example you throw a ball at a certain angle from horizontal will not move in the direction of gravity that is direction of force . …

Does an object always move in the same direction as the net external force acting on it?

The direction of the net force is in the same direction as the acceleration. So for an object moving in a circle, there must be an inward force acting upon it in order to cause its inward acceleration.

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Will the object move to what direction?

the object will move in the direction of the force. The bigger the force, and the lighter the object, the greater the acceleration. It can also make something slow down, speed up or change direction. creates an equal force in the opposite direction.

Can an object move in the opposite direction of the net force?

When there is a net force acting on an object, the forces are said to be unbalanced. Unbalanced forces cause an object to start moving, stop moving, or change direction. Unbalanced forces acting on an object will change the object’s motion. When you add equal forces in opposite direction, the net force is zero.

Why the direction of motion of a particle is given by its velocity and not by acceleration?

Since velocity is a vector, it can change either in magnitude or in direction. Acceleration is therefore a change in either speed or direction, or both. Keep in mind that although acceleration is in the direction of the change in velocity, it is not always in the direction of motion.

Can an object be moving with no net force?

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An object with no net forces acting on it which is initially at rest will remain at rest. If it is moving, it will continue to move in a straight line with constant velocity. Forces are “pushes” or “pulls” on the object, and forces, like velocity and acceleration are vector quantities.

Which action cause all the object move?

A force is a push or pull that causes an object to move, change direction, change speed, or stop. Without a force, an object that is moving will continue to move and an object at rest will remain at rest. Some forces are greater than other forces, and the greater the force the greater the motion.

Why does an object not move?

When an object does not move in response to a push or a pull, it is because another equal-sized force, such as gravity or friction, is counteracting the push or pull. Gravity (the earth’s pulling force) and friction (the force between two surfaces) are common forces that work against motion.

What is the gravitational force that the Earth exerts on objects?

The weight of an object on or above the earth is the gravitational force that the earth exerts on the object. The weight always points toward the center of mass of the earth.

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What is the difference between an object at rest and motion?

An object at rest tends to stay at rest and an object in motion tends to stay in motion with the same speed and in the same direction unless acted upon by an unbalanced force. In the statement of Newton’s first law, the unbalanced force refers to that force that does not become completely balanced (or canceled) by the other individual forces.

How many newtons is the net force acting on the object?

1. Free-body diagrams for four situations are shown below. For each situation, determine the net force acting upon the object. Click the buttons to view the answers. The net force is zero Newtons. All the individual forces balance each other (i.e., cancel each other out). The net force is 5 Newtons, left.

What happens if the net force is greater than the weight?

If your lifting force is greater than the weight, then the net force will be greater than zero and the object will begin accelerating upward. The magnitude of the acceleration will depend on both the net force and the mass of the object.