Tag: nuclear reactions
Questions Related to nuclear reactions
In each fission energy of $200\ MeV$ is released. How many acts of fission must occur per second to produce a power of $1\ kw$?
The binding energy of $ _ { 17 } \mathrm { CI } ^ { 35 }$ nucleus is $298\ \mathrm { MeV }.$ Find its atomic mass. The mass of hydrogen atom $({ _{ 1 }{ H } }^{ 1 })$ is $1.008143\ \mathrm { amu }$ and that of a neutron is $1.008986\ \mathrm { amu }.$ Given $1\ \mathrm { amu } = 931\ \mathrm { MeV }.$
In a working nuclear react, cadmium rods (control rods) are used to:-
In the nuclear reaction ; $ _{92}U^{238}\rightarrow _{z}Th^{A}+ _{2}He^{4}$ the values of A and Z are:
Out side a nucleus
Consider a hypothetical annihilation of a stationary electron with a stationary positron. What is the wavelength of resulting radiation?
The atomic mass of $7 ^ { N ^ { 15 } }$ is 15.000108 a.m.u. and that is of $8 ^ { \bigcirc ^ { 16 } }$ 15.994915 a.m.u. If the mass of a proton is 1.007825 a.m.u. then the minimum energy provided to remove the least tightly bound proton is
The energy of the reaction ${ Li }^{ 7 }+p\longrightarrow 2{ He }^{ 4 }$ is (the binding energy per nucleon in ${ Li }^{ 7 }$ and ${ He }^{ 4 }$ nuclei are 5.60 and 7.06 MeV respectively.)
The binding energy per nucleon of deuteron $(^2 _1 H)$ and helium nucleus $(^4 _2 He)$ is 1.1 MeV and 7 MeV respectively. If two deuteron nuclei react to form a single helium nucleus, then the energy released is
Find the binding energy of a H atom in the state n = 2