Assume that a neutron breaks into a proton and an electron. The energy released during this process is (Mass of neutron = 1.6725 x 10–27kg; mass of proton = 1.6725 x 10–27kg; mass of electron = 9 x 10–31 kg)
A. 7.10 Mev
B.6.30 Mev
C.5.4 Mev
D.0.73 Mev
Assume that a neutron breaks into a proton and an electron. The energy released during this process is (Mass of neutron = 1.6725 x 10–27kg; mass of proton = 1.6725 x 10–27kg; mass of electron = 9 x 10–31 kg)

Question

Assume that a neutron breaks into a proton and an electron. The energy released during this process is (Mass of neutron = 1.6725 x 10–27kg; mass of proton = 1.6725 x 10–27kg; mass of electron = 9 x 10–31 kg)
A. 7.10 Mev
B.6.30 Mev
C.5.4 Mev
D.0.73 Mev

Assume that a neutron breaks into a proton and an electron. The energy released during this process is (Mass of neutron = 1.6725 x 10–27kg; mass of proton = 1.6725 x 10–27kg; mass of electron = 9 x 10–31 kg)

Arun · Answer

Dear student Delta m = mp + me – mn = 9 * 10^-31 kg energy released = 9 * 10^-31 kg * c^2 when converting it in Mev = 0.73 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 x 10–27kg; mass of proton = 1.6725 x 10–27kg; mass of electron = 9 x 10–31 kg)
A. 7.10 Mev
B.6.30 Mev
C.5.4 Mev
D.0.73 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 x 10–27kg; mass of proton = 1.6725 x 10–27kg; mass of electron = 9 x 10–31 kg)A. 7.10 MevB.6.30 MevC.5.4 MevD.0.73 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 x 10–27kg; mass of proton = 1.6725 x 10–27kg; mass of electron = 9 x 10–31 kg)
A. 7.10 Mev
B.6.30 Mev
C.5.4 Mev
D.0.73 Mev