Assume that a neutron breaks into a proton and an electron. The energy released during this process is (Mass of neutron =1.6725×10^−27 kg
Sahay Sir > Question Answers > Assume that a neutron breaks into a proton and an electron. The energy released during this process is (Mass of neutron =1.6725×10^−27 kg
Statement – 1 : A nucleus having energy E1 decays by β− emission to daughter nucleus having energy E2, but the β− rays are emitted with a continuous energy spectrum having end point energy E1−E2. Statement – 2 : To conserve energy and momentum in β-decay at least three particles must take part in the transformation.
04
Sep
Statement – 1 : A nucleus having energy E1 decays by β− emission to daughter nucleus having energy E2, but the β− rays are emitted with a continuous energy spectrum having end point energy E1−E2. Statement – 2 : To conserve energy and momentum in β-decay at least three particles must take part in the [...]
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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 =1.6725×10^−27 kg ,
Mass of electron =9×10^−31 kg) ,
Mass of proton =1.6725×10^−27 kg ,
Statement - 1 : A nucleus having energy E1 decays by β− emission to daughter nucleus having energy E2 ,
Assume that a neutron breaks into a proton and an electron. The energy released during this process is (Mass of neutron =1.6725×10^−27 kg, Mass of proton =1.6725×10^−27 kg ,Mass of electron =9×10^−31 kg)
04
Sep
Assume that a neutron breaks into a proton and an electron. The energy released during this process is (Mass of neutron =1.6725×10^−27 kg, Mass of proton =1.6725×10^−27 kg ,Mass of electron =9×10^−31 kg) Assume that a neutron breaks into a proton and an electron. The energy released during this process is (Mass of neutron =1.6725×10^−27 [...]