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Can Nuclear fission be controlled?
Yes. Nuclear power plants and nuclear powered ships and submarines use controlled fission reactions.
How is a nuclear fission reaction controlled in nuclear reactor?
Reactions that involve nuclei, called nuclear reactions, result in a tremendous amount of energy. Two types are fission and fusion.
How is a nuclear fission reaction controlled in a nuclear reaction?
Reactions that involve nuclei, called nuclear reactions, result in a tremendous amount of energy. Two types are fission and fusion.
What is the place where controlled nuclear fission reactions take place?
The place where controlled nuclear fission reactions take place is called a nuclear reactor. In a nuclear reactor, uranium atoms are split in a controlled manner to produce heat energy, which is used to generate electricity.
What is repeated nuclear fission called?
Repeated nuclear fission is called a nuclear chain reaction. In this process, the fission of one nucleus releases neutrons, which can then induce fission in nearby nuclei, leading to a self-sustaining series of reactions. This principle is utilized in nuclear reactors and atomic bombs, where controlled or uncontrolled chain reactions can occur, respectively. The efficiency and safety of such reactions are critical in their applications.
Can Nuclear fission be controlled?
Yes. Nuclear power plants and nuclear powered ships and submarines use controlled fission reactions.
How is a nuclear fission reaction controlled in a nuclear reaction?
Reactions that involve nuclei, called nuclear reactions, result in a tremendous amount of energy. Two types are fission and fusion.
How is a nuclear fission reaction controlled in nuclear reactor?
Reactions that involve nuclei, called nuclear reactions, result in a tremendous amount of energy. Two types are fission and fusion.
How is a nuclear fission reaction controlled in a nuclear reactor?
A nuclear fission reaction is controlled in a nuclear reactor by using control rods made of materials that absorb neutrons, such as boron or cadmium. By adjusting the position of these control rods within the reactor core, the rate of fission and thus the power output can be regulated. Inserting the control rods absorbs neutrons and reduces the number available for further fission reactions, helping to maintain a steady power level.
What is the place where controlled nuclear fission reactions take place?
The place where controlled nuclear fission reactions take place is called a nuclear reactor. In a nuclear reactor, uranium atoms are split in a controlled manner to produce heat energy, which is used to generate electricity.
How is the rate of the fission in a nuclear reactor controlled?
The rate of fission in a nuclear reactor is controlled through the use of control rods made of materials like boron or cadmium. These control rods absorb neutrons, reducing the number available to cause fission reactions, thus regulating the rate of fission. By inserting or withdrawing these control rods into the reactor core, operators can adjust the level of fission and control the reactor's power output.
What type of nuclear reaction is used in modern day nuclear reactors?
Modern day nuclear reactors primarily use fission reactions, where the nucleus of an atom is split into smaller fragments, releasing large amounts of energy. Fission reactions are controlled in reactors to generate heat, which is used to produce electricity.
What is nuclear fission?
the splitting of a nucleus
Where is the nuclear energy produced in a nuclear reactor?
Nuclear energy is produced in the core of a nuclear reactor, where controlled nuclear fission reactions occur. These reactions release heat energy, which is then used to generate electricity through steam turbines.
What are the type of nuclear reactions?
nuclear fission and nuclear fusion
When fission is not controlled how is it used?
Reactions that involve nuclei, called nuclear reactions, result in a tremendous amount of energy. Two types are fission and fusion.
How can nuclear fission be slowed?
Nuclear fission can be slowed by inserting control rods, such as boron or cadmium, into the reactor core. These control rods absorb neutrons, reducing the number available to initiate fission reactions and thus slowing down the rate of fission in the reactor.
