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With control rods made of Cadmium metal, which absorbs neutrons.

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How do control rods in a nuclear reactor regulate the rate of nuclear fission?

Control rods in a nuclear reactor regulate the rate of nuclear fission by absorbing neutrons, which are needed to sustain the fission process. By adjusting the position of the control rods, operators can control the number of neutrons available to cause fission reactions, thus regulating the overall power output of the reactor.


How is cadmium a part of nuclear reactors?

Cadmium is used in nuclear reactors as a control rod material. Control rods are inserted into the reactor core to absorb neutrons and regulate the nuclear fission process. Cadmium has a high neutron absorption cross-section, making it effective for controlling the rate of nuclear reactions.


Reactions involving the particles in the nucleus of an atom are called what?

Nuclear Fusion. This process involves 'fusing' together two smaller nuclei to form a bigger nucleus.


Nuclear reactions at very high temperature is known as?

Nuclear reactions at very high temperatures are known as thermonuclear reactions. These reactions involve the fusion of atomic nuclei, typically hydrogen isotopes, and release large amounts of energy. Thermonuclear reactions are responsible for the energy production in stars like our sun.


What are the control rods in a nuclear reactor made of?

Control rods in a nuclear reactor are typically made of materials such as boron, cadmium, or hafnium. These materials are selected for their ability to absorb neutrons and regulate the reactor's power levels by controlling the rate of nuclear reactions.

Related Questions

The rate at which reactions occur in a nuclear reactor is regulated by?

The rate of reactions in a nuclear reactor is regulated by control rods made of materials like boron or cadmium, which absorb neutrons and help control the nuclear fission process. By adjusting the position of these control rods, operators can control the rate of reactions and the amount of heat produced in the reactor.


How a controlled nuclear reactions can be conducted?

we will start with this statement cadmium rods have the property to absorb nutrons now we know that for nuclear reactions it is necessary for the neutrons to strike the nucleus of the atom and thus with the help of cadmium rods we can control the number of neutrons striking the nucleus and we can control our nuclear reactions


Does fuel rods slow down nuclear reactions?

No, but control rods do.


What is a device that controls the rate of nuclear fission reactions?

Control rods are used.


What is the difference between the nuclear reactions in a nuclear reactor and those in an atomic bomb?

Nuclear reactions in a nuclear reactor are controlled reactions. The reactions in the atomic bomb are not controlled reactions


What fuel rods slow down nuclear reactions?

Control rods made of materials such as boron or cadmium are used to slow down nuclear reactions in a nuclear reactor by absorbing neutrons. When inserted into the reactor core, control rods can regulate the rate of the nuclear reaction by absorbing excess neutrons and thus controlling the release of energy.


Which component within a nuclear reactor directs neutron bombardment?

The control rods within a nuclear reactor help direct neutron bombardment. By adjusting the position of the control rods, operators can regulate the rate of nuclear fission reactions and control the release of energy.


In a nuclear reactor lowering control rods willresult in?

Lowering control rods in a nuclear reactor will result in the absorption of more neutrons, which decreases the rate of fission reactions and slows down the nuclear chain reaction. This helps to control and regulate the power output of the reactor.


How is the controlled release of nuclear energy in a reactor is accomplished by?

Controlled release of nuclear energy in a reactor is achieved by controlling the rate of nuclear fission reactions through the use of control rods. These control rods absorb neutrons, limiting the number available to initiate fission reactions. By adjusting the position of the control rods, the reactor's power output can be regulated to maintain safe and efficient operation.


What does lower control rods result in?

Lowering control rods into a nuclear reactor results in reducing the number of nuclear fission reactions occurring in the reactor core. This process helps to regulate the power output of the reactor by absorbing neutrons and decreasing the rate of nuclear reactions.


Which safety feature works to slow down nuclear fission chain reactions?

control rods APEX USERS


How do control rods in a nuclear reactor regulate the rate of nuclear fission?

Control rods in a nuclear reactor regulate the rate of nuclear fission by absorbing neutrons, which are needed to sustain the fission process. By adjusting the position of the control rods, operators can control the number of neutrons available to cause fission reactions, thus regulating the overall power output of the reactor.