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a. .(92)U^(235)+.(0)n^(1)rarr (52)A^(13...

`a. ._(92)U^(235)+._(0)n^(1)rarr (52)A^(137)+._(40)B^(97)+..........`
`b. ._(34)Se^(84)rarr 2 ._(-1)e^(0)+..........`

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To solve the given nuclear reactions, we need to ensure that both mass and charge are conserved. Let's analyze each reaction step by step. ### Part a: The reaction is: \[ _{92}^{235}U + _{0}^{1}n \rightarrow _{52}^{137}A + _{40}^{97}B + \ldots \] ...
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Complete the equations for the following nuclear processes: (a) ._(17)^(35) Cl + ._(0)^(1)n rarr... + ._(2)^(4)He (b) ._(92)^(235)U + ._(0)^(1) n rarr ...+ ._(54)^(137)Xe + 2 _(0)^(1)n (c) ._(13)^(27) Al + ._(2)^(4) He rarr ... + ._(0)^(1) n (d) ...(n,p) ._(16)^(35) S (e) ._(94)^(239) Pu (alpha, beta^(-))...

._(7)N^(14)+ ._(0)n^(1)rarr ...................+._(1)H^(1)

In equation ._(92)U^(235) + ._(0)n^1 to ._(56)Ba^(144) + ._(36)Kr^(89) + X : X is-

Which one of the following nuclear transformation is (np) type? a. ._(3)Li^(7) + ._(1)H^(1) rarr ._(4)Be^(7) + ._(0)n^(1) b. ._(33)As^(75) + ._(5)He^(4) rarr ._(35)Bi^(78) + ._(0)n^(1) c. ._(83)Bi^(209) + ._(1)H^(2) rarr ._(84)Po^(210) + ._(0)n^(1) d. ._(21)Sc^(45) + ._(0)n^(1) rarr ._(20)Ca^(45) + ._(1)H^(1)

U-235 is decayed by bombardment by neutron as according to the equation: ._(92)U^(235) + ._(0)n^(1) rarr ._(42)Mo^(98) + ._(54)Xe^(136) + x ._(-1)e^(0) + y ._(0)n^(1) Calculate the value of x and y and the energy released per uranium atom fragmented (neglect the mass of electron). Given masses (amu) U-235 = 235.044 , Xe = 135.907, Mo = 97.90, e = 5.5 xx 10^(-4), n = 1.0086 .

Balance the following nuclear reactions: a. ._(3)Li^(7) + ._(0)n^(1) rarr 2 ._(2)He^(4) + ? b. ._(42)Mo^(94) + ._(1)H^(2) rarr ._(0)n^(1) + ?

for nuclear reaction : ._(92)U^(235)+._(0)n^(1)to._(56)Ba^(144)+.......+3_(0)n^(1)

Name the following nuclear reactions : (a) ""_(92)^(235) +_(0)^(1)n to_(38)^(90)Sr + _(54)^(143) Xe + 3_(0)^(1) n + gamma (b) ""_(1)^(3) H +_(1)^(2) H to_(2)^(4) He + _(0)^(1) n + _(0)^(1) n + gamma

Complete the following nuclear fission reactions : (a) ""_(92)^(235) U +_(0)^(1) n to_56 Ba + ^92 Kr + 3 _(0)^(1) n + ...... (b) ""_(92)^(235) U +_(0)^(1) n to^148 La +_(35)^(85) Br + ...... _(0)^(1) n + en ergy

The ._(92)U^(235) absorbs a slow neturon (thermal neutron) & undergoes a fission represented by ._(92)U^(235)+._(0)n^(1)rarr._(92)U^(236)rarr._(56)Ba^(141)+_(36)Kr^(92)+3_(0)n^(1)+E . Calculate: The energy released when 1 g of ._(92)U^(235) undergoes complete fission in N if m=[N] then find (m-2)/(5) . [N] greatest integer Given ._(92)U^(235)=235.1175"amu (atom)" , ._(56)Ba^(141)=140.9577 "amu (atom)" , ._(36)r^(92)=91.9263 "amu(atom)" , ._(0)n^(1)=1.00898 "amu", 1 "amu"=931 MeV//C^(2)