## Introduction

Dimensional formula of force: Imagine you are playing with a ball. When you push the ball, it starts off evolved moving. The push you gave is a pressure. Force is like a superpower that makes matters alternate their movement or form.

A long term ago, scientists like Newton helped us apprehend pressure higher. Newton stated force is like a pal that helps a factor accelerate or gradually down. He even had special components: Force equals mass (how heavy something is) and instances acceleration (how speedy it’s changing).

So, the formula is like this: Force = mass × acceleration.

## Force

Force is measured in a unit known as Newton (N). It’s like announcing, “I used five Newtons of pressure to push the ball.”

Now, permit’s talk about why gravity continually pulls matters toward the center. Imagine you’re in a big ball pit. If you throw a ball into the pit, it falls toward the center. Gravity is like that huge ball pit, and it pulls the whole lot closer to its center. That’s why whilst you drop something, it falls instantly down.

When we study force in faculty, we additionally find out about dimensions. Dimensions are just like the building blocks of pressure. There are three foremost dimensions: mass, duration, and time. Imagine you’re baking a cake. Mass is like how a good deal flour you operate, the period is just like the length of your baking pan, and time is how long it takes to bake.

So, the scale of force is mass, period, and time. When you position them together, it looks as if this: [M] [L] [T]^-2. It’s like a secret code that tells us about force.

**Dimensional formula of force**

**Dimensional formula of force**

Dimensional Formula of Force

The dimensional formula of force is given by,

M1 L1 T-2

Where,

- M = Mass
- L = Length
- T = Time

**Derivation of is dimension formula**

**Force = Mass × Acceleration . . . . (1)**

**Since, acceleration = velocity × [time]****–1 ****= [LT****-1****] × [T]****-1**

**Therefore, the dimensional formula of acceleration = [LT-2] . . . . (2)**

On substituting equation (2) in equation (1) we get,**Force = m × aOr, F = [M] × [L1 T-2] = M1 L1 T-2.**Therefore, Force is dimensional represented as M1 L1 T-2.

**Key Concepts Needed to Understand ****dimensional formula of force**

**dimensional formula of force**

- The international system of units

- Measurement of length

- Measurement of mass

- Measurement of time

- Accuracy, precision of instruments, and errors in measurement

- Significant figures

- Dimensions of physical quantities

- Dimensional formulae and dimensional equations

- Dimensional analysis and its applications

**Dimensional formula of force**

- As everyone is aware, the formula for force is F=ma.
- The mass times the acceleration equals force.
- Furthermore, mass is its dimension.
- Velocity per time is a useful way to visualize the acceleration dimension. The distance traveled in a given amount of time can be used to represent velocity.
- Thus, the fundamental dimensions we want to use are mass and time distance since they are simple for us to measure.
- Thus, mass, time, and distance per time make up the dimensions of force.

The other measuring systems prefer to claim that mass is generated from force, and that force is the fundamental measurement.

**Conclusion **

**Force is a **phenomenon that makes things move or change. According to Newton Force=Mass× Acceleration. Hence the force is directly proportional to mass and acceleration. When we play with a ball and push it, that push is the force. We measure force in Newtons (N). Like saying, “I used 5 Newtons of force to push the ball.”So force dimensions are mass length and time. When we put them together it is [M] [L] [T]^-2. Force plays a very important role in moving things and understanding. That the how things are working.