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This is a complicated question to answer, but I'll do my best.
Basicaly heavy water is used as a moderator in a nuclear reactor. It is used to slow the neutrons being directed at the fissionable material, by means of the molecules of the moderator physicaly impacting the incoming neutrons and absorbing some of the kenetic energy they posses, thus slowing them down, in the same way that two billiard balls impacting each other would slow down the incoming one (or both if they were both moving). The reason that the neutrons have to be slowed is that most fissionable materials are more likely to absorb thermal neutrons (2.2km/s) than fast neutrons (14,000km/s).
Light water (the name usually used for regular H2O when talking about nuclear reactors), is the most common type of moderator, because it is cheap, very available, and is more effecient at slowing the incoming neutrons, due to the fact that the hydorgen atoms in the water posses only one proton and one electron, and thus are almost exactly the same mass as the incoming neutrons (the hydrogen atom weighs only as much as one electron more than the neutrons, and electrons are very light when compard to protons and neutrons, which are equal in mass). The problem with using light water as a moderator, however, is that the hydrogen atoms may absorb some of the neutrons, thus preventing them from getting through to the fissionable material. Thus, once the percentage of U-235 (the fissionable isotope of uranium) is too low (such as in natural uranium, where the percentage of U-235 is about 0.72%), then the amount of neutrons getting through the moderator without being abosorbed is not high enough to maintain criticality (the point at which the amount of neutrons being produced is equal to the amount escaping the system or being absorbed but not resulting in fission), and the chain reaction can no longer continue, and the reactor can no longer produce power.
Heavy water, however, is deuterium oxide. Deuterium is an isotope of hydrogen with one proton and one neutron. Thus the hydrogen atom already has one extra neutron, and is much less likely to absorb another. This means that when heavy water is used as a moderator, enough neutrons get through that even with very low levels of U-235 (even the very low levels found in natural uranium), criticality can be maintained, and power is produced. So even though the efficiency of the D2O (heavy water) molecules at slowing the neutrons is slightly less than that of regualr H2O (water, or light water) molecules, the use of heavy water as a moderator allows natural uranium to be used as a fuel with little, if any, enrichment (which is a costly process, and controversial, as enriched uranium can be used to make nuclear weapons).
This is why CANDU (Canadian Deuterium-Uranium) reactors can use natural uranium, or even the waste uranium from conventional light water reactors as fuel.
What else can I help you with?
What happends when heavy water comes out the muffler?
No heavy water in the muffler.
What is heavy water and why did Hitler want some?
Heavy water is water with some gases extracted.if you put it in a barrel and put the barrel in water the barrel would sink.Theonly reason Hitler wanted heavy water was because heavy water is used in atomic bombs.the only place he could get the heavy water was Norway. fortunately the Brit's blew up the only cargo ship carrying the heavy water back to Germany...some heavy water is lost in a lake somewhere in norway...lost in time forever.
When the Germans were trying to get the heavy water were they trying to get it from an ocean or what?
Heavy water occurs naturally in all water in a proportion of about one part in twenty million. In order to get a certain amount of heavcy water you have to isolate the heavy molecules out of a large quantity of water. The Germans used fresh water because there would have been no point in having to desalinize before they could even begin isolating the heavy water from the regular water. Heavy water is heavy because one of the hydrogen atoms in the water molecule has a neutron in its nucleus along with the proton.
How do you separate heavy water?
Heavy water can be separated from regular water through a process called fractional distillation. This method takes advantage of the slightly different boiling points of the two types of water due to the presence of deuterium in heavy water. By heating the mixture and collecting the vapor at the right temperature, heavy water can be obtained.
The difference between a sample of heavy water and regular water is that a hydrogen atom in heavy water has an extra?
The difference is that a hydrogen atom in heavy water, or deuterium oxide, contains an extra neutron in its nucleus compared to a hydrogen atom in regular water. This extra neutron increases the atomic mass of the heavy water molecule compared to regular water.
What is the purpose of weight?
it tells you how heavy stuff is.
What is the explanation of heavy water?
So you take some water...a lot of it. Then you have heavy water.
What happends when heavy water comes out the muffler?
No heavy water in the muffler.
How heavy is a swimsuit?
A swimsuit is not very heavy it only get a little heavy when we come out of water as it retains water
Does the specific gravity of ice change if it is heavy water?
Of course. Heavy water ice will sink in light water.
Water that contains hydrogen 2 atoms instead of hydrogen 1 atoms is called?
Water that contains hydrogen-2 instead of hydrogen-1 is called heavy water.
Does heavy water taste different from regular water?
Yes, heavy water does taste slightly different from regular water. Heavy water has a slightly sweeter taste due to the presence of deuterium, a heavier isotope of hydrogen.
What is heavy water and why did Hitler want some?
Heavy water is water with some gases extracted.if you put it in a barrel and put the barrel in water the barrel would sink.Theonly reason Hitler wanted heavy water was because heavy water is used in atomic bombs.the only place he could get the heavy water was Norway. fortunately the Brit's blew up the only cargo ship carrying the heavy water back to Germany...some heavy water is lost in a lake somewhere in norway...lost in time forever.
When did Norwegian heavy water sabotage happen?
Norwegian heavy water sabotage happened in 1940.
Is heavy water radioactive?
No, heavy water is not radioactive. It is a form of water where the hydrogen atoms are replaced with deuterium, a stable isotope of hydrogen. Heavy water is commonly used in nuclear reactors as a neutron moderator.
How heavy water different from normal water?
Heavy water is about 11% denser than ordinary water, due to enriching of its deuterium isotopes.
When the Germans were trying to get the heavy water were they trying to get it from an ocean or what?
Heavy water occurs naturally in all water in a proportion of about one part in twenty million. In order to get a certain amount of heavcy water you have to isolate the heavy molecules out of a large quantity of water. The Germans used fresh water because there would have been no point in having to desalinize before they could even begin isolating the heavy water from the regular water. Heavy water is heavy because one of the hydrogen atoms in the water molecule has a neutron in its nucleus along with the proton.
