The total kinetic energy within a system
there's so many process and computation to be made off before we can get the the total of thermodynamic energy. Because in thermodynamic the internal energy is the total energy contained by a thermodynamic system.
Kinetic Energy = (1/2) m(v^2) = one-half, times mass, times velocity squared Potential Energy (gravitational) = mgh - m=mass, h=height, g=gravitational constant (9.8m/ss) Potential Energy (elastic) = 1/2 k(x^2) - k=spring/elastic constant
The Total Energy of a system is E= Escalar + Evector = Es + Ev.
The Total Energy is a Quaternion Energy, consisting of a Scalar/Potential Energy and a Vector Energy Ev= mcV.
Thermodynamic systems are typically defined in terms of how (or if) they interact with their environment.
An "open system" is one where the defined volume exchanges both mass and energy with its environment
A "closed system" is one where the defined volume may exchange energy with its surrounding environment but the mass within the system remains constant.
An "isolated system" is one where neither mass nor energy cross the boundaries of the system.
Note: we generally assume the universe is an isolated system - hence the first law of thermodynamics where energy is constant (and so is mass).
The total energy in a system remains constant. This is the Law of the Conservation of Energy.
Never changes
Enthalpy
In a perfectly elastic collision total momentum and total energy remains constant. First law of physics - true everywhere even inside a black hole.
The total kinetic energy within a system
The total kinetic energy within a system
Total energy of a system.
no
the total energy U. If there is no work done on the system, Uint= KE+PE
In a perfectly elastic collision total momentum and total energy remains constant. First law of physics - true everywhere even inside a black hole.
The Total Energy of a system is E= Escalar + Evector = Es + Ev.The Total Energy is a Quaternion Energy, consisting of a Scalar/Potential Energy and a Vector Energy Ev= mcV.
The total kinetic energy within a system
The total kinetic energy within a system
Mechanical energy
Total energy of a system.
True .
no
true
The total energy doesn't change
"Open system" means that energy may enter the system or escape from it.