Net Force Formula

Net Force Formula

Newton’s Second Law states that an accelerating object must have a Net Force Formula acting on it. On the other hand, one could assert that if an object is subjected to a net force, it will accelerate. By multiplying the object’s mass by its acceleration, it is possible to calculate the size of the Net Force Formula pulling on the object. Thus,

An object is not moving faster and is in a condition known as equilibrium if there is zero net force acting on it. The formula will then be,


One of the most important formulas in Physics is the one for net force. When all forces are combined and acting on a single object in a single plane, the force is said to act as a net force. Due to the fact that it makes it easier to understand how any specific object is moving, the Net Force is necessary. One can also use the Net Force Formula to calculate an object’s acceleration.

An Introduction

The unbalanced force is the force that is not balanced by the other individual force, according to Newton’s first law. A force is said to be out of balance if all of the upward and downward forces and the horizontal forces do not cancel one another.

It is widely assumed that a Net Force Formula is acting on the object. Given that a force is a vector and that two forces of equal strength and opposing directions cancel each other out, the  Net Force Formula is the sum of all forces.

Students can peruse the selection of Physics study materials on the Extramarks website if they are looking for the best resources to learn about and master the subject of Physics.

Net Force Equation

Newton’s Second Law states that when a Net Force Formula acts on an object, that object must accelerate. As a result, its speed varies from second to second. Therefore, the soccer ball accelerates when one kicks it for the first time and accelerates once more as it starts to slow down.

Currently, the total force acting on an object is called the Net Force Formula. The equation represents the total of N forces acting on an object.

Some Examples in Net Force Equation Physics

Students can get the solved example of the Net Force Formula from the Extramarks website and acquire a proper understanding of the concept.

Net Force is the sum of all the forces acting on a single object in a single plane. When a Net Force is applied to an object, the object accelerates in the direction of the Net Force. The still object is compelled to move toward the net force being applied. Similarly, an object in motion is compelled to adjust its speed and direction to match the applied Net Force.


Newton’s first law is very simple and accurately describes the dynamics of a force on a body at rest and in motion. However, Newton’s second law states that the magnitude Net Force Formula is derived from the mass of the body and is stated as FNet= ma.

Physics Related Formulas
Resonant Frequency Formula Wave Energy Formula
Temperature Formula Friction Loss Formula
Tangential Acceleration Formula Sound Pressure Level Formula
Spring Constant Formula Power Factor Formula For Single Phase
Angular Displacement Formula Rotational Inertia Formula
Flow Rate Formula Heat Of Vaporization Formula
Instantaneous Velocity Formula Magnetic Declination Formula
Kinematics Formulas Radiant Energy Formula
Kelvin To Celsius Formula Work Done By Gravity Formula
Moment Formula Universal Gravitation Formula

FAQs (Frequently Asked Questions)

1. What happens when no net force exists?

Any object initially at rest will remain at rest if no Net Force Formula can be applied to it. On the other hand, if the object is moving at the beginning, it will keep moving straight ahead at its constant speed. Therefore, Net Force Formula is used to stop an initially moving object or to move an initially stationary object. No stationary object can move unless Net Force Formula is used. Similarly, no moving object can either stop or change velocity.

2. Is it possible to move any object without using any net force?

This question has a simple answer: it depends on the object. As students can see, an object will continue to move if it is already moving, even if no Net Force Formula is applied. So, yes, the object can move or continue to move in this manner without the use of Net Force. If no Net Force is applied to an object that is not moving and is at rest, it will be stationary. Simply put, if no Net Force is applied, the object will continue doing what it was before.