1.

Considerthe decay of a free neutron at rest: n→p+ e–Showthat the two-body decay of this type must necessarily give anelectron of fixed energy and, therefore, cannot account for theobserved continuous energy distribution in the β-decayof a neutron or a nucleus (Fig. 6.19).[Note:The simple result ofthis exercise was one among the several arguments advanced by W.Pauli to predict the existence of a third particle in the decayproducts of β-decay.This particle is known as neutrino. We now know that it is a particleof intrinsic spin ½ (like e–,p orn),but is neutral, and either massless or having an extremely small mass(compared to the mass of electron) and which interacts very weaklywith matter. The correct decay process of neutron is: n→p + e–+ ν]

Answer»

Consider
the decay of a free neutron at rest:
n

p+ e


Show
that the two-body decay of this type must necessarily give an
electron of fixed energy and, therefore, cannot account for the
observed continuous energy distribution in the
β-decay
of a neutron or a nucleus (Fig. 6.19).





[Note:
The simple result of

this exercise was one among the several arguments advanced by W.
Pauli to predict the existence of a third particle in the decay
products of
β-decay.
This particle is known as neutrino. We now know that it is a particle
of intrinsic spin ½ (like
e,
p or
n),
but is neutral, and either massless or having an extremely small mass
(compared to the mass of electron) and which interacts very weakly
with matter. The correct decay process of neutron is:
n

p + e+ ν]



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