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What is the correct order of energy conversions associated with a power plant that uses nuclear fission reactions?
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What is the correct order of energy conversions associated with a power plant that uses nuclear fission reactions?

User Siliconrockstar
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Final answer:

The correct order of energy conversions associated with a nuclear power plant that uses nuclear fission reactions is: fission reactions produce steam, steam spins a turbine to generate electricity, condensation lowers the steam's temperature, and water is recirculated through the reactor core.

Step-by-step explanation:

The correct order of energy conversions associated with a power plant that uses nuclear fission reactions is as follows:

  1. The energy from the fission reactions of uranium is used to produce hot, high-pressure steam.
  2. The steam passes through a turbine, causing it to spin and generate electricity.
  3. As the steam condenses, it is run through a cooling tower to lower its temperature.
  4. The water then recirculates through the reactor core to be used again.

User Jobayer Ahmmed
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7.8k points
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The correct order of energy conversions associated with a power plant that uses nuclear fission reaction is as follows :
-water is heated by energy created through nuclear fission.
-Energy is lost surroundings
-Steam turn a turbine .
-Energy is lost friction
-Turbine powers a generator
-Energy is lost to friction
-Energy is transformed into electrical energy

User Patrik
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8.2k points
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