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How do the products of a fusion reaction differ from the products of a fusion reaction?
Fusion is a process in which the nuclei of two atoms combine to form a larger nucleus, while fission during fusion a small fraction of the reactant mass is converted into energy.
While not the only possible fusion reaction, the most commonly known is the fusion of hydrogen to create helium. The product is stable. In contrast, when fission of uranium or plutonium takes place, the resultant nuclei are neutron heavy and therefore will almost certainly be radioactive.
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How do the waste products of a fusion reaction differ from the products of a fission reaction?
Most (but not all) fusion products are non-radioactive. Virtually all fission products are strongly radioactive beta or gamma emitters.
How do products of a fusion reaction differ from the products of a fission reaction?
Fusion is a process in which the nuclei of two atoms combine to form a larger nucleus, while fission during fusion a small fraction of the reactant mass is converted into energy. While not the only possible fusion reaction, the most commonly known is the fusion of hydrogen to create helium. The product is stable. In contrast, when fission of uranium or plutonium takes place, the resultant nuclei are neutron heavy and therefore will almost certainly be radioactive.
How do the products of a fusion differ from the products of fission reaction?
Fusion is a process in which the nuclei of two atoms combine to form a larger nucleus, while fission during fusion a small fraction of the reactant mass is converted into energy. While not the only possible fusion reaction, the most commonly known is the fusion of hydrogen to create helium. The product is stable. In contrast, when fission of uranium or plutonium takes place, the resultant nuclei are neutron heavy and therefore will almost certainly be radioactive.
In a nuclear fusion reaction the mass of the products is?
Less than 1%.
What is true about the balance of mass in a fusion reaction?
In a fusion reaction, the total mass of the reaction products is less than the total mass of the initial reactants due to the conversion of mass into energy according to Einstein's famous equation E=mc^2. This difference in mass is known as the mass defect, and the lost mass is converted into energy during the fusion reaction.
How do the products of a fusion differ from the products of a fission reaction?
One thing that makes fusion products different from fission products obviously is the fact that fusion products are heavier than the original two nuclei and fission products are lighter than the original nucleus
How do the reactants of a chemical reaction differ from the products of the same reaction?
Reactants are the starting materials that are present at the beginning of a chemical reaction, while products are the substances that are formed as a result of the reaction. Reactants undergo a chemical change to form products during the reaction.
How do the products of a fusion reaction different from the products of a fission reaction?
Fusion is a process in which the nuclei of two atoms combine to form a larger nucleus, while fission during fusion a small fraction of the reactant mass is converted into energy. While not the only possible fusion reaction, the most commonly known is the fusion of hydrogen to create helium. The product is stable. In contrast, when fission of uranium or plutonium takes place, the resultant nuclei are neutron heavy and therefore will almost certainly be radioactive.
In a nuclear fusion reaction how does the mass of the products compare to the mass of the reactants.?
In a nuclear fusion reaction, the mass of the products is slightly less than the mass of the reactants. This loss of mass is converted into energy according to Einstein's E=mc^2 equation. The difference in mass is known as the mass defect.
How do the masses of the atoms produced as a result of afusion reaction differ from the masses of the atoms that result from a nuclear fission reaction?
The products are very different.
How do the substances that form in a chemical reaction differ from the substances that react?
The substances that form in a chemical reaction are the products, while the substances that react are the reactants. Products have different chemical properties than reactants because they have undergone a chemical change during the reaction.
How do the masses of the atoms produced as a result of fusion reaction differ from the masses of the atoms that result from a nuclear fission reaction?
Fusion: smaller atoms are made into bigger atoms (2 Deuterium atoms -> 1 Helium atom) Fission: larger atoms are made into smaller atoms (1 Uranium 235 (Z=92) + 1 neutron -> 1 Krypton 92 (Z=36) + 1 Barium 141 (Z=56))
