Home
Class 12
PHYSICS
[" 1.Consider the beta decay "],[" 198Au...

[" 1.Consider the beta decay "],[" 198Au "rarr^(198)Hg^(*)+beta+bar(v)],[" where "198Hg^(*)+beta+bar(v)],[" where "198Hg^(*)" represents a mercury nucleus in an "],[" excited state at energy "1.088MeV" above the "],[" ground state.What can be the maximum linetic "],[" round state.What can be the maximum linetic "],[" round state.What can be the maximum linetic "],[197.966760u],[" los Au is "197.968233u" be the maximum knass "],[197.966760u],[" "I97.966760 textrmu "],[" (2) "1.008MeV],[" (3) "3.806MeV],[" (4) "0.00276MeV]

Promotional Banner

Similar Questions

Explore conceptually related problems

Consider the beta decay ^198 Au rarr ^198 Hg ** + Beta^(-1) + vec v . where ^198 Hg^** represents a mercury nucleus in an excited state at energy 1.088 MeV above the ground state. What can be the maximum kinetic energy of the electron emitted? The atomic mass of ^198 Au is 197.968233 u and that of ^198 Hg is 197.966760 u .

Consider the beta decay ^198 Au rarr ^198 Hg ** + Beta^(-1) + vec v . where ^198 Hg^** represents a mercury nucleus in an excited state at energy 1.088 MeV above the ground state. What can be the maximum kinetic energy of the electron emitted? The atomic mass of ^198 Au is 197.968233 u and that of ^198 Hg is 197.966760 u .

Consider the beta decay ^198 Au rarr ^198 Hg ** + Beta^(-1) + vec v . where ^198 Hg^** represents a mercury nucleus in an excited state at energy 1.088 MeV above the ground state. What can be the maximum kinetic energy of the electron emitted? The atomic mass of ^198 Au is 197.968233 u and that of ^198 Hg is 197.966760 u .

What is the maximum oxidation state that nitrogen can have ?

The maximum oxidation state that can be exhibited by a halogen in its second excited state

The maximum oxidation state that can be exhibited by a halogen in its second excited state

The maximum oxidation state that can be exhibited by a halogen in its second excited state

A cyclotron has dees of radius 47 cm and uses a maximum magnetic field of 1.77 T:- What is the maximum energy of deuteron in Mev that can be obtained?