Calculating Tension: Basic Formula?

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SUMMARY

The discussion focuses on calculating tension in cables or strings, particularly in equilibrium scenarios. When a mass m is suspended from a cable, the tension at the point of attachment equals the gravitational force acting on the mass, represented as mg. In cases where the cable has mass, the tension increases at the attachment point due to the combined weight of the mass and the cable itself. It is emphasized that understanding the underlying concepts is crucial, rather than merely applying formulas.

PREREQUISITES
  • Understanding of Newton's laws of motion
  • Familiarity with basic physics concepts such as force and equilibrium
  • Knowledge of gravitational force calculations
  • Concept of tension in strings and cables
NEXT STEPS
  • Study the principles of static equilibrium in physics
  • Learn about the effects of mass on tension in cables
  • Explore tension calculations in accelerating systems
  • Investigate the role of friction in tension scenarios
USEFUL FOR

Physics students, engineers, and anyone involved in mechanics or structural analysis will benefit from this discussion on calculating tension in cables and strings.

ScienceGirl502
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is there a basic formula for calculating tension?

like the tension in a cable or string holding up a sign, etc.
 
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You have to look at the particular problem for calculating the tension.

In equilibrium problems, the basic idea is that the tension in a string at one end is of that magnitude as to keep the object at that end stationary.
If there's a lamp of mass m hanging down from a cable vertically,
then gravity acts on the lamp with a force -mg (I take up as the positive direction).
Since the net force on the lamp is zero, the tension in the cable at that end is mg.
The tension in the cable where it is attached to the ceiling is greater, since the combined gravitational force acting down is -g(m+m_c). Where m_c is the mass of the cable.

If the cable is massless, the tension always has the same magnitude throughout.

In general, every problem needs its own ideas to solve (eg. for the tension). The important thing is to understand the concept and being able to apply it. Not just learning formulas and plugging in the data.
 
"If the cable is massless, the tension always has the same magnitude throughout."
For accelerating systems, this is not always correct (for example a rope not moving relatively to a rotating pulley, or when there is kinetic friction between the rope&pulley).
 

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