power dissipation - meaning and definition. What is power dissipation
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What (who) is power dissipation - definition

RESULT OF AN IRREVERSIBLE PROCESS THAT TAKES PLACE IN INHOMOGENEOUS THERMODYNAMIC SYSTEMS
Dissipative; Dissipating; Dissipated energy; Dissipate; Dissipates; Dissipated; Power dissipation; Energy dissipation; Dissipation (thermodynamics); Static power dissipation; Dynamic power dissipation

Processor power dissipation         
OVERVIEW ABOUT THE POWER DISSIPATION OF THE COMPUTER PROCESSOR
CPU power consumption; Cpu power consumption; CPU electrical consumption; CPU power usage; CPU power use; CPU power dissipation; CV2F
Processor power dissipation or processing unit power dissipation is the process in which computer processors consume electrical energy, and dissipate this energy in the form of heat due to the resistance in the electronic circuits.
Dissipated         
·adj Squandered; scattered.
II. Dissipated ·Impf & ·p.p. of Dissipate.
III. Dissipated ·adj Wasteful of health, money, ·etc., in the pursuit of pleasure; dissolute; intemperate.
Dissipation         
·noun A trifle which wastes time or distracts attention.
II. Dissipation ·noun The act of dissipating or dispersing; a state of dispersion or separation; dispersion; waste.
III. Dissipation ·noun A dissolute course of life, in which health, money, ·etc., are squandered in pursuit of pleasure; profuseness in vicious indulgence, as late hours, riotous living, ·etc.; dissoluteness.

Wikipedia

Dissipation

In thermodynamics, dissipation is the result of an irreversible process that takes place in homogeneous thermodynamic systems. In a dissipative process, energy (internal, bulk flow kinetic, or system potential) transforms from an initial form to a final form, where the capacity of the final form to do thermodynamic work is less than that of the initial form. For example, heat transfer is dissipative because it is a transfer of internal energy from a hotter body to a colder one. Following the second law of thermodynamics, the entropy varies with temperature (reduces the capacity of the combination of the two bodies to do work), but never decreases in an isolated system.

These processes produce entropy at a certain rate. The entropy production rate times ambient temperature gives the dissipated power. Important examples of irreversible processes are: heat flow through a thermal resistance, fluid flow through a flow resistance, diffusion (mixing), chemical reactions, and electric current flow through an electrical resistance (Joule heating).

Examples of use of power dissipation
1. Emanuel uses a more arcane measure called the "power dissipation index" that is related to both the duration and intensity of tropical storms, but the bottom line is the same: much more destructive power being released by hurricanes, an increase that is "highly correlated" with sea–surface temperatures.