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Start Here
5 Topics | 1 Quiz
Why Should We Care?
The World’s Biggest Challenges
Water is Life
Energy, Water, Wealth, and Freedom
Energy is Wealth
Start Here Quiz
Energy
16 Topics | 1 Quiz
Defining Energy and Power
A New Definition of Humanity
Modern Thermodynamics
The Steam-Powered Revolution
The First Law of Thermodynamics
Types of Energy
Entropy: The Second Law of Thermodynamics
Turning On the Lights: Conversions and Efficiencies
Primary Resources and Secondary Energy
Global Energy Flows and Reservoirs
Fossil Fuels
Renewable Energy
Energy Transitions
End Uses of Energy
The Kaya Identity
Carrying Capacity
Energy Quiz
Water
13 Topics | 1 Quiz
Water Basics
The Hydrologic Cycle
Water and Health
Consumption
Water Footprint
Water is Life
Availability
The Reynolds Transport Theorem
Precipitation
Location
Salinity
Reservoirs and Transportation
Infrastructure
Water Quiz
Water for Energy
11 Topics | 1 Quiz
Environmental Value Systems
Thermal Power Plants
Water Temperature
Water Availability
Water and Renewables
Water in Fuels
Water Quality
Water for Transportation
Hydroelectric Energy
Energy From Falling Water
Ocean Energy
Water for Energy Quiz
Energy for Water
8 Topics | 1 Quiz
Pumping
Moving Water Across California
Math of Pumping Water
Treatment
Energy of Bottled Water
Desalination
Sanitation
Heating
Energy For Water Quiz
Trends
10 Topics | 1 Quiz
Climate Change
Feedback Loops
Alternative Fuels
Clean Water
Economic Growth vs The Environment
Transporting Water
Desalination
Population Growth
Math of Population
Changing Water Levels
Trends Quiz
Technical Solutions
11 Topics | 1 Quiz
Source Switching
Gray Water
Wastewater Effluent
Non-Fresh Water
Water-Lean Systems
Energy-Lean Systems
Distributed Energy Technologies
Distributed Water Technologies
Inventing the Wheel
Connected Technologies
Integrated Solutions
Technical Solutions Quiz
Non-Technical Solutions
7 Topics | 1 Quiz
Research and Development
Regulations and Standards
Market Pressures
Assumptions and the Human Factor
Market Externalities
Value-Based Markets
Ethics
Non-Technical Solutions Quiz
Resourcefulness Final Exam
Return to resourcefulness

The First Law of Thermodynamics

resourcefulness Energy The First Law of Thermodynamics
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The first law of thermodynamics is one of the fundamental governing laws of the physical universe, and comprises three separate but related concepts:

  • Energy is conserved.
  • Energy has many forms.
  • Energy can be converted from one form to another.

Conservation of energy grounds all processes in the natural world. A system can never produce more energy than it consumes.

Open v Closed Systems

For the Laws of Thermodynamics, a closed system exchanges neither energy nor matter with surrounding systems. In the observable world, every system is open because it is connected with another system or its surrounding environment. For example, even Earth, which is separated from the rest of the solar system by the atmosphere, receives radiant energy from the sun.

The total amount of energy in a closed system remains constant. It can only be changed from one form to another or transferred from one body to another. Another way to consider this concept is that the best outcome in a closed system is to break even; there will never be more energy at the end than at the beginning.

The second implication of the law states that energy exists in different forms. The different forms of energy manifest in nature, such as the chemical energy stored in the bonds of molecules of fuels such as petroleum, coal, wood, or natural gas. Sometimes energy exists in a more tangible form such as directed radiant energy—a laser beam or lighting from incandescent bulbs—or the mechanical energy of a moving object. The typical forms of energy include chemical (c), atomic (a), electrical (e), mechanical (m), radiant (r), and thermal (t).

The third implication of the first law provides the most use because energy can be converted between its different forms. For example, forms convenient for storage, such as the chemical energy in a cord of firewood become useful thermal energy emanating from a fireplace that warms a house. Intentional and thoughtful transformation of energy from one form to another enables many aspects of developed society: physical mobility, climate control, and refrigeration. And, as noted in an earlier section, this intentional transformation distinguishes humans from other species.

Image Credits: Oleksiy Mark/Shutterstock.com.

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