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The total energy of a body can be defined in terms of its mass, velocity, and height from the ground by considering the three main forms of energy involved: gravitational potential energy, kinetic energy, and rest energy (mass-energy equivalence).

  1. Gravitational Potential Energy (PE): The gravitational potential energy of an object at a certain height above the ground is given by the formula: PE=m⋅g⋅hPE = m cdot g cdot h where:
  • PEPE is the gravitational potential energy,
  • mm is the mass of the object,
  • gg is the acceleration due to gravity (approximately 9.8 m/s² on Earth),
  • hh is the height of the object from the reference point (usually the ground).
  1. Kinetic Energy (KE): The kinetic energy of an object in motion is given by the formula: KE=12⋅m⋅v2KE = frac{1}{2} cdot m cdot v^2 where:
  • KEKE is the kinetic energy,
  • mm is the mass of the object,
  • vv is the velocity of the object.
  1. Rest Energy (mass-energy equivalence): According to Einstein's mass-energy equivalence principle (E = mc²), the rest energy of an object is given by the formula: E=m⋅c2E = m cdot c^2 where:
  • EE is the rest energy,
  • mm is the mass of the object,
  • cc is the speed of light in a vacuum (approximately 3×1083 imes 10^8
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