Nuclear Energy

Nuclear energy is produced from fission, which splits the large atoms of heavy elements like uranium into smaller atoms, releasing enormous amounts of energy. Thirty U.S. states have nuclear power plants, and nuclear energy makes up around 20% of the U.S. electricity supply.

The Basics

Nuclear energy is released from the fission of heavy elements like uranium, a weakly radioactive metal found around the world. Fission splits large atoms into smaller atoms, releasing enormous amounts of energy. During electricity generation, the process of fission emits only water vapor but leaves behind spent fuel, which remains highly radioactive. Milling uranium, processing uranium into nuclear fuel, and operating nuclear power plants all create various types of nuclear waste, both low-level and high-level.

Why does nuclear energy matter?

The United States has used nuclear power since the mid-20th century. Nuclear energy makes up around 20% of U.S. electricity supply. There are currently 98 commercial nuclear reactors operating at 60 nuclear power plants in thirty states.^[1][2]

How does geoscience help inform decisions about nuclear energy?

Geoscientists find and extract our supply of heavy elements like uranium. They evaluate the safety of nuclear power plants to withstand natural hazards such as earthquakes, floods, and tsunamis, and also play a central role in identifying safe options for short- and long-term management of nuclear wastes, including underground storage of spent-fuel and high-level waste.

References

¹ Nuclear Explained: U.S. Nuclear Industry, EIA

² How many nuclear power plants are there in the United States, and where are they located?, EIA

Learn More

Introductory Resources

• Nuclear Explained, Energy Information Administration
  This web article provides an overview of nuclear energy, uranium as a fuel for nuclear fission, the operation of U.S. nuclear power plants, the nuclear fuel cycle (uranium exploration, mining, milling, conversion, and enrichment, fuel use, and fuel disposal), uranium sources, status of the U.S. nuclear industry and power plants, and environmental impacts of nuclear power.

• What You Need to Know About Energy: Nuclear, The National Academies
  An overview of the role of nuclear energy in the United States, the benefits and disadvantages of nuclear, and opportunities and challenges for using nuclear energy in the future.

Resources for Educators

• Education GeoSource Network (EGS), AGI
  Search for nuclear energy resources related to professional resources, curricula & instruction, teaching media, outreach programs, and other EGS collections.

• NGSS Performance Expectations, Next Generation Science Standards
  K-ESS3-1, 4-ESS3-1, MS-ESS3-1, HS-ESS3-1, HS-ESS3-2, K-ESS2-2, 5-ESS3-1, MS-ESS3-3, MS-ESS3-4, HS-ESS3-3, HS-ESS3-4, HS-PS1-8

• NGSS Disciplinary Core Ideas, Next Generation Science Standards
  ESS3.A, ESS3.C, PS1.C

Additional Resources

Geoscience in Society Webinars

See how geoscience informs our understanding of societal issues.

Geoscience Currents

Search for related data briefs, case studies and factsheets.

FAQs

Browse frequently asked questions related to the intersection of geoscience, nuclear energy, and society.

EARTH

Browse related articles from EARTH magazine.

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