Work can be calculated as an integral of PdV, so if volume doesn't change (dV = 0) there is no work. Changing the temperature of an isochoric system involves no work on or by the system - unless you are moving the system around like lifting it or lowering it or shoving it or decellerating it.
Statistical thermodynamics uses probability and probability distributions for large collections of particles to reproduce the same properties of macroscopic systems already established by classical thermodynamics. In so doing it can give insights into the why's of thermodynamics. Statistical thermodynamics can utilize the equations of quantum mechanics for interatomic and intermolecular forces to further explain the thermodynamic properties of macroscopic systems of real matter based on what is happening down at the atomic level.
what is biodiversity give some examples
It is a limitation of the second law of thermodynamics that it is not able to give the rate of a chemical reaction.
Describe characteristics and give examples of prefect competition
the osmosis is special examples of diffussion
give three examples in each number system
The respitory system and the digestive system. Those systems are both body systems.
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The Law of Conservation of Energy, also known as the First Law of Thermodynamics.
examples of engineering and non engineering?
give me an examples of hotel rservations.
the operating system provides connectivity between software and the hardware. the examples of operating systems are windows,linux,machintosh,solaris
what is an operating system? and give two examples
Statistical thermodynamics uses probability and probability distributions for large collections of particles to reproduce the same properties of macroscopic systems already established by classical thermodynamics. In so doing it can give insights into the why's of thermodynamics. Statistical thermodynamics can utilize the equations of quantum mechanics for interatomic and intermolecular forces to further explain the thermodynamic properties of macroscopic systems of real matter based on what is happening down at the atomic level.
Q1: Please give real life examples of one centralized system and one distributed system. Please explain why they are centralized or distributed systems.
Three examples of business needs for a system are: maintain or improve the competitive position; perform a business function more efficiently; and take advantage of a new business opportunity.
temperature