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Outside the nucleus, the neutron itself is radioactive and decays into a proton, an electron, and...

Outside the nucleus, the neutron itself is radioactive and decays into a proton, an electron, and an antineutrino. The half-life of a neutron (mass = 1.675 × 10-27 kg) outside the nucleus is 10.4 min. On average, over what distance x would a beam of 7.89-eV neutrons travel before the number of neutrons decreased to 75.0% of its initial value? Ignore relativistic effects.

*** Ive gotten 151.14 and it is incorrect**

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Answer #1

value of decay constant

= 0.693/t1/2

= 0.693/10.4*60

= 0.00111

and

N(t) = No*e-t

0.75 No = No *e-t

log(0.75) = -*t

t = 258.55 s

and

E = 7.89 ev = 7.89/6.24*1018 J

E = 1.26*10-18 J

this energy is equal to the kinetic energy of the neutron

1/2*m*v2 = 1.26*10-18

v = sqrt(2*1.26*10-18 /1.67*10-27)

v = 38913.73 m/s

Now,

x = v*t

x = 38913.73*258.55

x = 10.06*106 m

distance x travel before the number of neutrons decreased to 75.0% of its initial value is 10.06*106 m.

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