363734 In the given nuclear reaction A, B, C, D, E represents
\({}_{{\text{92}}}{{\text{U}}^{{\text{238}}}}\xrightarrow{{{\rm {- \alpha}}}}{}_{\text{B}}{\text{T}}{{\text{h}}^{\text{A}}}\xrightarrow{{{\rm {- \beta}}}}{}_{\text{D}}{\text{P}}{{\text{a}}^{\text{C}}}\xrightarrow{{{\text{ - E}}}}{}_{{\text{92}}}{{\text{U}}^{{\text{234}}}}\)

363735 Assertion :
The ratio for time taken for light emission from an atom to that for release of nuclear energy in fission is 1:100.
Reason :
Time taken for the light emission from an atom is of the order of \({10^{ - 8}}\;s\).

363736 An atomic power nuclear reactor can deliver \(300{\text{ }}MW\). The energy released due to fission of each nucleus of uranium atoms fissioned per hour will be

363737 Nuclear fission can be explained by

363734 In the given nuclear reaction A, B, C, D, E represents
\({}_{{\text{92}}}{{\text{U}}^{{\text{238}}}}\xrightarrow{{{\rm {- \alpha}}}}{}_{\text{B}}{\text{T}}{{\text{h}}^{\text{A}}}\xrightarrow{{{\rm {- \beta}}}}{}_{\text{D}}{\text{P}}{{\text{a}}^{\text{C}}}\xrightarrow{{{\text{ - E}}}}{}_{{\text{92}}}{{\text{U}}^{{\text{234}}}}\)

363735 Assertion :
The ratio for time taken for light emission from an atom to that for release of nuclear energy in fission is 1:100.
Reason :
Time taken for the light emission from an atom is of the order of \({10^{ - 8}}\;s\).

363736 An atomic power nuclear reactor can deliver \(300{\text{ }}MW\). The energy released due to fission of each nucleus of uranium atoms fissioned per hour will be

363737 Nuclear fission can be explained by

363734 In the given nuclear reaction A, B, C, D, E represents
\({}_{{\text{92}}}{{\text{U}}^{{\text{238}}}}\xrightarrow{{{\rm {- \alpha}}}}{}_{\text{B}}{\text{T}}{{\text{h}}^{\text{A}}}\xrightarrow{{{\rm {- \beta}}}}{}_{\text{D}}{\text{P}}{{\text{a}}^{\text{C}}}\xrightarrow{{{\text{ - E}}}}{}_{{\text{92}}}{{\text{U}}^{{\text{234}}}}\)

363735 Assertion :
The ratio for time taken for light emission from an atom to that for release of nuclear energy in fission is 1:100.
Reason :
Time taken for the light emission from an atom is of the order of \({10^{ - 8}}\;s\).

363736 An atomic power nuclear reactor can deliver \(300{\text{ }}MW\). The energy released due to fission of each nucleus of uranium atoms fissioned per hour will be

363737 Nuclear fission can be explained by

363734 In the given nuclear reaction A, B, C, D, E represents
\({}_{{\text{92}}}{{\text{U}}^{{\text{238}}}}\xrightarrow{{{\rm {- \alpha}}}}{}_{\text{B}}{\text{T}}{{\text{h}}^{\text{A}}}\xrightarrow{{{\rm {- \beta}}}}{}_{\text{D}}{\text{P}}{{\text{a}}^{\text{C}}}\xrightarrow{{{\text{ - E}}}}{}_{{\text{92}}}{{\text{U}}^{{\text{234}}}}\)

363735 Assertion :
The ratio for time taken for light emission from an atom to that for release of nuclear energy in fission is 1:100.
Reason :
Time taken for the light emission from an atom is of the order of \({10^{ - 8}}\;s\).

363736 An atomic power nuclear reactor can deliver \(300{\text{ }}MW\). The energy released due to fission of each nucleus of uranium atoms fissioned per hour will be

363737 Nuclear fission can be explained by