laws of thermodynamics
TRANSCRIPT
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THERMODYNAMICSAN INTRODUCTION
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WHAT IS THERMODYNAMICS?
The study of relationships involving heat, mechanical work, and other aspects of energy and energy transfer
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LAWS OF THERMODYNAMICS
First LawSecond LawZeroth LawThird Law
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FIRST LAW OF THERMODYNAMICS
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FIRST LAW OF THERMODYNAMICS
How does a hot cup of coffee get cold?
How does ice melt?How is the 1st law exhibited by a car
engine?
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FIRST LAW OF THERMODYNAMICS
Law of Conservation of Energy“Energy cannot be created nor
destroyed”
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Visualize a hot cup of coffee that is placed on top of a
table.
After a few minutes, the coffee gets cold.
Is energy destroyed?
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Energy was not destroyed.
Energy was transferred to the environment.
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HEAT
HEAT
HEAT
HOT COOL
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HEAT
HEAT
HEAT
COFFEE ENVIRONMENT
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CONSERVATION OF ENERGY
Another example is a chain of energy transfer that starts with the microwave oven.
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CONSERVATION OF ENERGY
1ELECTRICAL energy is converted
to THERMAL energy
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CONSERVATION OF ENERGY
2 HEAT is TRANSFERRED to the
food we are cooking
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CONSERVATION OF ENERGY
3 After cooking, we take out the
food out of the oven and expose it to the environment and, thus, HEAT from the food is transferred to the environment
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CONSERVATION OF ENERGY
4 We get hungry. We eat the food
and the CHEMICAL energy in the food is converted to KINETIC energy as we
do our daily activities.
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CONSERVATION OF ENERGY
5 The energy transfer goes on…
…Continue the chain
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FIRST LAW OF THERMODYNAMICS
How does a hot cup of coffee get cold?
How does ice melt?How is the 1st law exhibited by a car
engine?
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FIRST LAW OF THERMODYNAMICS
How does a hot cup of coffee get cold?
How does ice melt?How is the 1st law exhibited by a car
engine?
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SECOND LAW OF THERMODYNAMICS
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SECOND LAW OF THERMODYNAMICS
Why can’t there be a 100% efficient engine?
When are you more efficient, when you focus on one thing or when you multitask?
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SECOND LAW OF THERMODYNAMICS
There is a limit to the availability of energy and the ways in which it can be used or converted
No such thing as a 100% efficient engine
Follows the concept of entropy
(Entropy = energy degradation)
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SECOND LAW OF THERMODYNAMICS
Imagine that you have a pot with a plant in it. As you were watering it, you noticed grass
growing around the plant.
How sure are you that the water you are giving is
absorbed by the plant alone?
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FOLLOWS THE CONCEPT OF ENTROPY
Entropy is simply the degradation of energy.
Due to the continuous process of energy transfer and conversion, energy is
degraded.
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FOLLOWS THE CONCEPT OF ENTROPY
Let’s play the game “Pass the Message”
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WHY CAN’T THERE BE A 100% EFFICIENT ENGINE?
Friction
Heat
Heat is released by the engine etc
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SECOND LAW OF THERMODYNAMICS
Why can’t there be a 100% efficient engine?
When are you more efficient, when you focus on one thing or when you multitask?
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ZEROTH LAW OF THERMODYNAMICS
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ZEROTH LAW OF THERMODYNAMICS
Thermal Equilibrium
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ZEROTH LAW OF THERMODYNAMICS
We leave two cups of coffee (where one is observably hotter than the other) on the
kitchen table and we just leave them there.
After 30 minutes what will we notice about the two cups of coffee?
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They will both cool down and will seemingly both have the same
temperature.
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ENVIRONMENTHEAT HEAT
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ENVIRONMENT
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ZEROTH LAW OF THERMODYNAMICS
ENVIRONMENT
AB
C
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THIRD LAW OF THERMODYNAMICS
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THIRD LAW OF THERMODYNAMICS
Possibility of Absolute Zero temperature
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THIRD LAW OF THERMODYNAMICS
Is it possible?
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THIRD LAW OF THERMODYNAMICS
It is impossible to reduce any system to absolute zero in a finite series of operations
- In order to have an object at Absolute Zero
temperature, an abundant amount of matter at
Absolute Zero temperature must pre-
exist
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SUMMARY
4 laws of Thermodynamics- Law of Conservation of Energy- Entropy- Equilibrium- Absolute Zero
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HOMEWORK(I WHOLE INTERMEDIATE PAPER)
1. We can notice the tubing system at the back of the refrigerator. Where does the heat of the tubing come from?
2. Why is an air conditioner placed in a window and not on the floor?
3. Could we cool the house if we leave the refrigerator door open?