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

The number of neutrons accompanyng the formation of _(54)^(139)Xe and _(38)^(139)Xe from the absorption of a slow neutron by _(92)^(235)U followed by nuclear fision is:

Calculate the number of neutrons in the following ""_(15)X^(31) ""_(92)U^(235) ""_(19)K^(39) .

The number of neutrons emitted when ._(92)^(235)U undergoes controlled nuclear fission to ._(54)^(142)Xe and ._(38)^(90)Sr is

The number of neutrons emitted when ._(92)^(235)U undergoes controlled nuclear fission to ._(54)^(142)Xe and ._(38)^(235)U undergoes controlled nuclear fission to ._(54)^(142)Xe and ._(38)^(90)Sr is:

The number of neutrons accompanying the formation of ""_54^139Xe and ""_38^94Sr from the absorption of slow neutrons by ""_92^235U followed by nuclear fission is

If ._(92)U^(235) nucleus absorbs a neutron and disintegrates in ._(54)Xe^(139), ._(38)Sr^(94) and X, then what will be the product X

""_(92)U^(235) nucleus absorbs a neutron and disintegrates into ""_(54)Xe^(139) .""_(38)Sr^(94) and X. What will be the product X ?