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Updated on 02nd March, 2023 , 6 min read
The SI Units, the International System of Units is generally used in the world of Trade, Science and Engineering. The International System of Units comprises of logical set up of measurement units that start with seven base units.
We all know who Sir Isaac Newton was and his contribution. He was an English mathematician, Physicist, Astronomer, Alchemist, Theologian, and Author. He was also described as a “Natural Philosopher” in his times.
It was the work and research of Sir Isaac Newton which led to the establishment of the popular relation between Force, Mass, and Acceleration. He came up with the popular formula “F = ma”. The ‘a' in the formula represents acceleration, and ‘m' is the mass of an object when force ‘F' is applied on it. Here in this article, we will read more about what the SI Unit of Force is and the role of mass and acceleration in it.
The SI Unit of Force is Newton (N). This symbol ‘N' represents force. The base units which are relevant to force are metre, kilogram, and second.
The answer to What is Force, in simple words, Force is the Physical Strength or Power, which can make somebody do something that he/she/it does not want to. It is the physical strength to do or move something.
Change in state of the body of position
When we get more into the Physical Dimensions, Force is usually measured by MLT-2. While talking practically, we do not consider the mass of the object instead we take into account the weight of the object. The basic unit of force, therefore, is given as:
The SI Unit of Force is ‘Newton' and the symbol used to denote Newton is ‘N'. The basic unit of Force using the basic units which are relevant of force such as metre, Kilogram, and second is:
F = (W/g)LT-2
where W represents the weight whereas g represents the acceleration.
Force is also defined as the rate of change in momentum. For a never changing mass, this will be equivalent to mass multiplied by acceleration. This gives,
1 N = 1 kg m s-2, or 1 kg m/s-2
Newton's Second Law of Motion states that the Force is defined or expressed as the product of Mass of an object and its acceleration.
In both the systems i.e. the SI System (the International System of Units) and the MKS system, the SI Unit of Mass is kilogram, which is abbreviated as kg and the SI Unit of Acceleration is m/s2. Deriving the SI Unit of Force using these three units will get you kg m/s2. The unit of force is expressed as N which stands for Newton.
The Force Formula Derivation is given below in this article. Since we know that Force is a product of Mass and Acceleration. Force is a vector quantity as it has both magnitude and direction. The Formula of Newton's Second Law of Motion is –
F = ma
Force (F) = Mass (M) * Acceleration (A)
Acceleration is defined as the rate of change of Velocity (v) of an object in a particular specified time (t). We can express acceleration as:
a = vt
Acceleration (a) = Velocity (v) * Time (t)
So, we can write Force as,
F = mv/t
It is known that P = mv where p is the momentum.
Therefore,
F= p/t = dp/dt
Force formula is considered helpful when calculating force, mass, acceleration, momentum, or velocity in any given problem.
There are two types of forces i.e. Contact Forces and Non-contact Forces –
When the mass of a body is subjected to an acceleration, the force applied on the body is known as poundal and the term is denoted as pdl. We will have the pound-force which is a gravitational unit of force. This gravitational unit of force is denoted as ‘lbf' and these are the units of measurement in the FPS System.
In the metric system, the force is calculated in the terms of Kilograms which is denoted as ‘kgf'. CGS System is another measuring system which is a relatively smaller measure. In the CGS system the unit of force is measured in dynes and it is dented as ‘gf'.
The other units of force are given below:
Unit |
Denoted as |
Equivalent Newton Unit |
Dyne |
dvn |
10-5 N |
Gram Force |
gf |
9.80665 mN |
Poundal |
pdl |
138.2550 mN |
Pound – Force |
lbf |
4.448222 N |
Kilogram – Force |
kgf |
9.80665 N |
The International System of Units is a globally accepted metric system which was established in the year 1960. It is internationally known as the standard for measurement which is approved by scientific researchers. It makes it easier for people to understand or express the quantity of any natural phenomenon.
The SI Units hold importance as they are based on precisely set standards and the base used in SI units is 10. The calculations made keeping 10 as base makes them easier.
There are a total of 7 base units and 22 derived units.
Quantity |
SI Unit |
SI Unit Symbol |
Length |
Metre |
m |
Mass |
Kilogram |
kg |
Time |
Second |
s |
Electric Current |
Ampere |
A |
Thermodynamic Temperature |
Kelvin |
k |
Amount of Substance |
Mole |
mol |
Luminous Intensity |
Candela |
cd |
The gravitational force is the universal force of attraction that acts between objects. The SI Unit of Gravitational Force is as same as that of the SI Unit of Force. The SI Unit of Gravitational Force is Newton and it is represented as ‘N'. Besides, the SI Unit of Mass is Kilogram which is denoted by ‘kg'.
Note* The gravitational force between two objects with two different masses i.e. M and m which are separated at a distance ‘r' is:
F = GMm/r2
In order to answer this question, students must know ‘What is Moment of Force?'. The moment of force is defined as the product of perpendicular distance and force from the axis. Now that distance and force are involved, the SI Unit of Moment of Force is Newton – Meter which is denoted as ‘Nm'.
The SI Unit of Electromotive Force is Volt. The Electromotive Force is numerically defined as the number of energy Joules is given by the source divided by each Coulomb to enable a unit electric charge to move along the circuit.
Note* The SI Unit of Electromotive Force is Volt which is denoted by ‘V'.
The unit of force in SI System is Newton which is denoted by ‘N’.
The SI unit of Gravitational Force is Newton, and it is denoted by ‘N’.
The SI Unit of Electromotive Force is Volt.
The SI Unit of Force in Physics is Newton which is denoted by ‘N’.
The SI Unit of Force is Newton which is denoted by ‘N’ and the SI Unit of Pressure is Pascal which is denoted by ‘Pa’. One Pascal is equal to one newton per square meter (N/m2 or kg m-1s-2).
The rotational analogue of force is also known as ‘Torque’. Torque is defined as the cross product of such force vector that ultimately causes rotational motion and its perpendicular distance ‘r’ from the axis of rotation which is also known as load arm. Torque is denoted by the symbol known as tau and written as “τττ” and τ = r * F. The SI Unit of Torque is Newton Metre, Nm (m2kg s-2). Therefore, Torque is the rotational analog of Force.
The SI Unit of Buoyant Force is Newton.
The SI Unit of Force is called Newton.