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The acceleration of falling objects is caused by the force of?

Assuming that there are no other forces on the object, the force that causes the acceleration of a falling object is the gravitational force (attractive force that exists between two masses). In problems, this assumption is usually used.However, in Force = mass*acceleration it is important to remember it is net acceleration and net force. Thus, for an object falling in real life the acceleration is caused by the gravitational force and a drag force which results from the object moving through the air. You have to take into account all the forces on the object.


How does air resistance affect the acceleration of falling objects?

As a falling object accelerates through air, its speed increases and air resistance increases. While gravity pulls the object down, we find that air resistance is trying to limit the object's speed. Air resistance reduces the acceleration of a falling object. It would accelerate faster if it was falling in a vacuum.


What is a force in Newton's second law of motion?

In Newton's second law of motion, force is defined as the product of an object's mass and acceleration. It is represented by the formula F = ma, where F is the force, m is the mass of the object, and a is the acceleration. This law describes how the acceleration of an object is directly proportional to the net force acting on it.


How do you know a force acts on a falling object?

Before you let it go, the weight you feel in your hand is the force. After falling a long way, the increasing resistance due to the air finally balances the force. So there are now 2 forces, gravity + air resistance, with a total of zero. So there are forces, but they add up to nothing, and hence constant speed. When you hold it in your hand, the speed is also constant, zero, the force provided by you balances gravity. Acceleration is a sign of unbalanced force. Constant velocity is a sign of balanced force. This led to the idea by Monsieur d'Alembert, that in any situation involving forces and accelerations, in your Force Vector Diagram you can add a further component equal to the negative of (Mass x Acceleration) and then solve the problem as a problem of statics ("d'Alembert's Principle). Thus for a falling object in a vacuum (no air resistance) you have weight force F downwards, and mass times acceleration g UPwards, so as a "statics" problem, F=mg.


Is the acceleration of an object proportional to its weight?

No, acceleration is not directly proportional to weight. Weight is the force of gravity acting on an object, while acceleration depends on the net force acting on the object, which can be influenced by factors other than weight, such as friction or applied forces.

Related Questions

The acceleration of a falling object is caused by th force of?

Gravity


The acceleration of falling objects is caused by the force of?

Assuming that there are no other forces on the object, the force that causes the acceleration of a falling object is the gravitational force (attractive force that exists between two masses). In problems, this assumption is usually used.However, in Force = mass*acceleration it is important to remember it is net acceleration and net force. Thus, for an object falling in real life the acceleration is caused by the gravitational force and a drag force which results from the object moving through the air. You have to take into account all the forces on the object.


The acceleration of a falling object is cause by the force of?

Gravity


Acceleration is caused by?

Acceleration is caused by a change in an object's velocity, either in speed or direction. This can occur due to the application of a force to the object, such as gravity or a push or pull from another object.


How do you calculate force of falling object?

You can calculate the force of a falling object using the formula: Force = mass x acceleration due to gravity. The acceleration due to gravity on Earth is approximately 9.81 m/s^2. Simply multiply the mass of the object by 9.81 to find the force of the object falling.


What is the rate of acceleration of an object on the moon?

-- The rate of acceleration of an object on the moon is(the net force on the object)/(the object's mass) .-- If the object is falling, with nothing but the force of gravity acting on it, thenits acceleration is 1.623 m/s2 (compared to 9.807 on Earth).


What acceleration does the object reach when air resistance equals the force of gravity on a falling object?

the acceleration of gravity is 9.8 m/s


When an object is falling and the force of gravity is the only force?

When an object is falling and the force of gravity is the only force acting on it, the object experiences a constant acceleration towards the Earth due to gravity. This acceleration is approximately 9.8 meters per second squared near the surface of the Earth.


What are three things that can be caused by an unbalanced force?

Three things that can be caused by an unbalanced force are acceleration of an object, change in velocity of an object, and deformation or breakage of the object.


An object is falling at its what if it falls at a constant velocity?

If an object is falling at a constant velocity, then the net force acting on it is zero. This means that the force of gravity pulling the object downward is balanced by an equal and opposite force. The object will continue to fall at a steady speed without accelerating.


When a falling object has reached its teminal velocity its accleration?

When a falling object reaches its terminal velocity, its acceleration becomes zero. The downward force of gravity is balanced by the upward force of air resistance, resulting in no overall acceleration.


How is force related to acceleration and gravity?

Force is directly proportional to acceleration, according to Newton's second law (F = ma), where F is the force applied to an object, m is the mass of the object, and a is its acceleration. Gravity is a type of force that can cause acceleration, as in the case of free-falling objects where the force of gravity causes the object to accelerate towards the Earth.