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When does force take place? If two bodies are in physical contact, then we notice that they apply forces on each other. Well, what’s in it for tension? Have you ever pulled something up or toward you using a rope? If you do, you are putting the rope in tension.
This article will explain how all of these processes are executed? When a body is in contact with a rope, string, cable, or spring, all of these objects are going through tension. We can also calculate the tension in string formula with ease.
Dimensional Formula of Tension
Tension is a type of force that acts along the length of the medium such as rope or string. A force is necessary to put these objects under tension. Tension is also named something exciting, i.e. action-reaction pair.
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The Tension Dimensional Formula = [M1 L1 T-2]
Tension is nothing, but it’s a force that has got another improved name. Tension acts at both the end of the string (from the above picture). The tension force is available on each point of the string.
Tension Force Formula
You can calculate the tension formula on a body by the summation of the product of mass and gravitational force along with the product of mass and acceleration.
So, the tension equation is equal to T = mg + ma
Tension Force Examples
Let’s solve a question.
Q. Find the tension on a string if it is dangled with a brick of 10 kg. Acceleration is 3 m/s2 in the upward direction.
Ans: Data are given, m = mass of the brick = 10 Kg
When the brick is getting an upward acceleration, the Tension Formula Physics is expressed as
T (Tension in A String Formula) = mg + ma
= 10 × 9.8 + 10 × 3 = 128 N
Surface Tension Equation
Surface tension is defined as a phenomenon that happens when a phase has made the interaction with the surface of a liquid. The other phase can also be a liquid. Liquids tend to occupy the least surface area. They behave like elastic sheets.
The formula for the surface tension is:
ℽ = ½ . F/L
Here, T = Surface Tension of the liquid
L = length on which the force exerts
F = force per unit length
Tension Formula Pulley
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If the wedge of mass (m) is heaved upwards by two forces of F and T, then the mg will be alike the sum of F and T. So,
2F = mg
or F = mg / 2