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Chapter 24 Thermodynamics

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Presentation on theme: "Chapter 24 Thermodynamics"— Presentation transcript:

1 Chapter 24 Thermodynamics

2 Absolute Zero Absolute zero is a theoretical temperature at which atoms that make up matter have zero kinetic energy. They are at rest. Watch the NOVA program “Absolute Zero” on Youtube. Keywords “Absolute Zero”

3 First Law of Thermodynamics
Heat that is added to a system can be converted to equal amounts of some other form of energy. Another way to state the first law of thermodynamics is: Energy cannot be created or destroyed but can be transformed from one form to another in a thermal system The first law of thermodynamics is simply the law of conservation of energy applied to thermal systems

4 Adiabatic Processes The process of compression or expansion of a gas so that no heat enters or leaves a system is said to be adiabatic.

5 change in air temperature ~ pressure change
As air pressure decreases with altitude, so does the temperature. Air temperature decreases by about 5 °F for every 1000 feet of elevation. Since cold air holds less water vapor than warm air, the relative humidity gradually increases until it is saturated: 100% relative humidity The temperature at which the air is saturated is called the dew point.

6 change in air temperature ~ pressure change
Adiabatic cooling of the air that results in the formation of clouds often occurs around mountains (orographic lifting). change in air temperature ~ pressure change

7 Adiabatic cooling of the air results in a “Rain Shadow” effect:

8 Where are the driest places on earth?
Atacama Desert:

9 Second Law of Thermodynamics
Heat flows from HOT to COLD

10 Efficiency of a Heat Engine
Carnot Efficiency: The efficiency of a heat engine depends on the temperature difference between the hot reservoir and the cold sink. Ideal Efficiency = Thot – Tcold Thot

11 Entropy Natural systems tend to proceed toward a state of greater disorder Entropy - is the measure of the amount of disorder in a system. Whenever a physical system is allowed to distribute its energy freely, it always does so in a manner such that entropy increases while the available energy of the system for doing work decreases.

12 Summary: First Law of Thermodynamics:
Energy cannot be created or destroyed, but can be transformed to other forms within a thermal system Second Law of Thermodynamics Entropy: Natural systems tend to proceed to a state of greater disorder

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