`U^(235)` nucleus absorb a neutron and disintegrate in `Xe^(139),Sr^(94)` and X, so what will be the product x?

""_(92)U""^(235) nucleus absorbes a neutron and disintegrate into ""_(54)Xe""^(139),""_(38)Sr""^(94) , and x neutrons x is

92^(U^(235) mucleus absorbs a slow neutron and undergoes fission into 54^(X^139) and 38^(sr^94) nuclie The other particies produced in this fission process are

Consider the case of bombardment of U^(235) nucleus with a thermal neutron. The fission products are Mo^(95) & La^(139) and two neutrons. Calculate the energy released by one U^(235) nucleus. (Rest masses of the nuclides are U^(235)=235.0439 u, ._(0)^(1)n=1.0087u, Mo^(95)=94.9058 u, La^(139).9061u) .

If a ._(92)U^(235) nucleus upon being struck by a neutron changes to ._(56)Ba^(145) , three neutrons and an unknown product. What is the unknown product?

Consider the fission ._(92)U^(238) by fast neutrons. In one fission event, no neutrons are emitted and the final stable and products, after the beta decay of the primary fragments are ._(58)Ce^(140) and ._(44)Ru^(99) . Calculate Q for this fission process, The relevant atomic and particle masses are: m(._(92)U^(238))=238.05079u, m(._(58)Ce^(140))=139.90543 u, m(._(34)Ru^(99))=98.90594 u

The number of neutrons accompanying the formation of ._(54)Xe^(139) and ._(38)Sr^(94) from the absorption of a slow neutron by ._(92)U^(235) , followed by nuclear fission is

A uranium U^(235) nucleus liberates an energy of 200 MeV in the process of fission. 1.5 kg of uranium take part in the reaction during the explosion of a uranium bomb. What is the mass of an equivalent TNT bomb, if the heating capacity of TNT is 4.1 MJ/kg?

If an atom of _92^235U , after absorbing a slow neutron, undergoes fission to form an atom of -54^138 Xe and an atom of _38^94Sr , the other particles produced are

._(92)U^(238) absorbs a neutron. The product emits an electron. This product further emits an electron. The result is

Avogadro's Number: 6.022xx10^(23) In a thermal neutron-inducted fission process, .^(235)U reacts with a neturon and breaks up into energetic fragmants and (normally) 2-3 new neutrons. We consider one single fission event: 235U+n rarr .^(137)Te+X+2n Identify the fragment X.