Damping causes energy dissipation and has a secondary effect on natural frequency.
Often, the most important requirement (besides regulating flow) is energy dissipation.
The Cooper pair fluid is thus a superfluid, meaning it can flow without energy dissipation.
The higher the resistance value the higher the braking energy dissipation inside the motor.
Still another use for manmade hydraulic jumps is energy dissipation.
This leads to energy dissipation and causes the material to display a small amount of electrical resistance while in the superconducting state.
These surface riffles generally result in very little energy dissipation.
Steady jumps are generally well-balanced and the energy dissipation is usually considerable (45-70%).
This is, of course, equal to the energy dissipation, ε.
In particular, through relationships (11.64)-(11.66), the entrainment was related to energy dissipation.