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If the Kinetic Energy and the Potential Energy of an Object REMAIN equal while the object is in Motion, then it is Moving at a Constant Velocity PARALLEL to its "Reference System".
It is the sum of the potential and kinetic energies
The total potential and kinetic energy of a MICROSCOPIC object is it's INTERNAL ENERGY.
If you know the kinetic and potential energies that act on an object then you can calculate the mechanical energy of the object. States that in an isolated system the mechanic energy is constant.
That's a true statement. Did you have a question ?
If the Kinetic Energy and the Potential Energy of an Object REMAIN equal while the object is in Motion, then it is Moving at a Constant Velocity PARALLEL to its "Reference System".
For any object, the summation of its potential and kinetic energies is constant.
It is the sum of the potential and kinetic energies
Mechanical Energy :)
true
Mass is the sum of energies, both kinetic and potential. As the velocity increases so does the kinetic energy of object.
The total potential and kinetic energy of a MICROSCOPIC object is it's INTERNAL ENERGY.
potential energy
If you know the kinetic and potential energies that act on an object then you can calculate the mechanical energy of the object. States that in an isolated system the mechanic energy is constant.
If there is no energy lost to friction or air resistance, then the total energy is the sum of the kinetic and potential energies.
The sum of total energies of all microscopic particles is equal to the internal energy of that object.
That's a true statement. Did you have a question ?