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How is deuterium and tritium produced?
Deuterium and tritium are produced through nuclear reactions. Deuterium is naturally found in water, and can also be extracted from water through a process called electrolysis. Tritium, on the other hand, is not naturally abundant and is typically produced in nuclear reactors by bombarding lithium-6 with neutrons. This reaction causes the lithium-6 to absorb a neutron and produce tritium and helium-4. Both deuterium and tritium are used as fuel in nuclear fusion reactions, which have the potential to generate large amounts of energy.
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Why are there no electrons in hydrogen deuterium?
Hydrogen deuterium is an isotope of hydrogen that contains one proton and one neutron in its nucleus, in contrast to regular hydrogen which contains only a proton. Since electrons are found outside the nucleus and are associated with a specific element, the presence of an electron is not affected by the presence of a neutron in the nucleus. Therefore, hydrogen deuterium, like regular hydrogen, contains one electron in its electron cloud.
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Why are deuterium and tritium used in nuclear fusion?
Deuterium and tritium are used in nuclear fusion because they are isotopes of hydrogen that have the necessary properties for efficient fusion reactions. Deuterium is readily available in natural water and is relatively easy to extract, making it a practical fuel source for fusion reactions. Tritium, while not naturally abundant, can be produced from lithium within the fusion reactor itself, making it a self-sustaining fuel source. Additionally, the fusion of deuterium and tritium produces a high-energy reaction with a relatively low ignition temperature, making it more feasible for current fusion technology.
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Is heavy water, also known as deuterium oxide, toxic?
Heavy water, or deuterium oxide, is not considered toxic in small amounts. However, consuming large quantities of heavy water can be harmful to the body. It can interfere with the normal functioning of cells and can potentially cause damage to the nervous system. Ingesting heavy water in large amounts can also disrupt the body's normal balance of water and electrolytes. Therefore, while small amounts of heavy water are not toxic, it is important to avoid consuming large quantities.
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Where does the difference between hydrogen and deuterium show itself?
The main difference between hydrogen and deuterium is in their atomic structure. Deuterium has one proton and one neutron in its nucleus, while hydrogen only has a proton. This difference in atomic structure leads to variations in their physical and chemical properties. For example, deuterium is heavier than hydrogen and forms stronger chemical bonds, making it useful in certain scientific and industrial applications.
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Why does deuterium not directly react to form helium-4?
Deuterium does not directly react to form helium-4 because the process of nuclear fusion requires extremely high temperatures and pressures to overcome the electrostatic repulsion between the positively charged nuclei. Deuterium, which is an isotope of hydrogen with one proton and one neutron, needs to be heated to temperatures of millions of degrees Celsius to undergo fusion with another deuterium nucleus to form helium-4. This process is only achievable in the extreme conditions found in the core of stars or in experimental fusion reactors.
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What would you call a water molecule with deuterium and tritium?
A water molecule with deuterium and tritium would be called heavy water. Heavy water is a form of water where the hydrogen atoms are replaced with deuterium, a stable isotope of hydrogen, and sometimes tritium, a radioactive isotope of hydrogen. Heavy water has slightly different physical and chemical properties compared to regular water, and it is commonly used in nuclear reactors and scientific research.
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How would one name a water molecule with deuterium and tritium?
A water molecule with deuterium and tritium would be named as heavy water. Heavy water is a form of water where the hydrogen atoms are replaced with deuterium and tritium isotopes. It is also known as deuterium oxide or D2O. The presence of deuterium and tritium in the water molecule gives it different properties compared to regular water.
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