Cadmium is a very strong absorber of neutrons and therefore can be used to control the chain reaction and to shutdown the reactor when required. Boron is also often used for the same purpose.
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.
True. Cadmium (and boron plus some other elements) absorbs neutrons, thus limiting or slowing the fission chain in a nuclear reactor.
Yes, that's true. Cadmium in control rods absorbs neutrons, which slows down the nuclear fission reaction in a reactor. By capturing neutrons, it reduces the number of available neutrons to sustain the chain reaction, allowing for better control of the reactor's power output. This property makes cadmium an effective material for regulating fission processes in nuclear reactors.
Nuclear reactor
Different elements absorb neutrons to different extents. The measure of this is called the neutron absorption cross section, you can visualise this as the size of a scoop collecting water from a stream, or something similar. Cadmium just happens to have a very large cross section for slow neutrons which are the main cause of the fission chain reaction in a reactor. Boron has similar properties. The precise reason for this involves study of nuclear physics, which you will have to read up in a scientific book on the subject, to get some understanding.
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.
True. Cadmium (and boron plus some other elements) absorbs neutrons, thus limiting or slowing the fission chain in a nuclear reactor.
Yes, that's true. Cadmium in control rods absorbs neutrons, which slows down the nuclear fission reaction in a reactor. By capturing neutrons, it reduces the number of available neutrons to sustain the chain reaction, allowing for better control of the reactor's power output. This property makes cadmium an effective material for regulating fission processes in 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.
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.
Yes, cadmium in control rods is used to slow down or stop a nuclear reaction by absorbing neutrons. When control rods are inserted into a nuclear reactor core, cadmium atoms capture neutrons, preventing them from causing further fission reactions and helping regulate the reactor's power output.
Control rods in a nuclear reactor absorb neutrons by containing materials that readily capture neutrons, such as boron or cadmium. When these materials absorb neutrons, they prevent the neutrons from causing further nuclear reactions, helping to control the rate of fission in the reactor.
Control rods are made of materials that absorb neutrons, such as boron or cadmium. When control rods are inserted into the reactor core, they absorb neutrons and reduce the number available for causing fission reactions. This helps regulate the nuclear fission process by controlling the rate of reactions and maintaining a stable level of power output in the reactor.
Yes, that's correct. Cadmium is used in control rods to help regulate the rate of the nuclear fission reaction by absorbing neutrons. When the control rods are inserted into the reactor core, they absorb excess neutrons, which helps to slow down the reaction and maintain a safe and stable environment within the reactor.
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.
nuclear fission