Assume that a neutron breaks into a prot...

Assume that a neutron breaks into a proton and an electron . The energy reased during this process is (mass of neutron `= 1.6725 xx 10^(-27) kg` mass of proton `= 1.6725 xx 10^(-27) kg` mass of electron `= 9 xx 10^(-31) kg )`

`0.73 MeV`

`7.10 MeV`

`6.30 MeV`

`5.4 MeV`

Text Solution

Verified by Experts

The correct Answer is:

`._(0)n^(1)rarr._(1)H^(1)+._(-1)e^(0)+overset(-)v+Q`
`Deltam+m_(n)-m_(alpha)=m_(e )`
`=(1.6725xx10^(-27)-1.6725xx10^(-27)-9xx10^(-31))kg`
`= -9xx10^(-31) kg`
Energy `=9xx10^(-31) kg`
`=0.511 MeV`
Which is nerarly equal to `0.73 MeV` but as energy will be required.
Since mass is increasing so answer `= -0.511 MeV`

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Assume that a neutron breaks into a proton and an electron. The energy released during this process is (mass of neutron = 1.6725 xx 10^(-27) kg, mass of proton = 1.6725 xx 10^(-27) kg , mass of electron = 9 xx 10^(-31) kg)

A neutron breaks into a proton and electron. Calculate the energy produced in this reaction in MeV. Mass of an electron =9xx10^(-11) kg. mass of proton=1.6725xx 10^(-27) kg, Mass of neutron=1.6747 xx10^(-27) kg. speed of light = 3xx10^(8)m//sec .

A neutron break into proton and electron. Calculate the energy produced in this reactions in MeV. ( m_e=9.1xx10^(-31)kg, m_p=1.6725xx10^(-27) kg , m_n=1.6747xx10^(-27) kg ) :-

The mass of 1 mole of neutrons (m_(n) = 1.675 xx 10^(-27) kg) is:

A neutron breaks into a proton and electorn. Calculate the eenrgy produced in this reaction in m_(e) = 9 xx 10^(-31) kg, m_(p) = 1.6725 xx 10^(-27) kg, m_(n) = 1.6747 xx 10^(-27) kg, c = 3xx10^(8)m//sec .

The kinetic energy of an electron is 4.55 xx 10^(-25)J . Calculate the wavelength . [h = 6.6 xx 10^(-34)Js , mass of electron = 9.1 xx 10^(-31)kg]

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