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A 14C nucleus, initially at rest, emits a beta particle. The beta particle is an electron...

A 14C nucleus, initially at rest, emits a beta particle. The beta particle is an electron with 133 keV of kinetic energy.

Part A

What is the speed of the beta particle?
v

v

=

nothing

   c  

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Part B

What is the momentum of the beta particle?
p

p

=

nothing

   kg⋅m/s  

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Part C

What is the momentum of the nucleus after it emits the beta particle?
p

p

=

nothing

   kg⋅m/s  

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Part D

What is the speed of the nucleus after it emits the beta particle?
v

v

=

nothing

   m/s  
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Answer #1

PART A: Rest mass energy of relativistic particle is given by E. = moc? Here to = rest ass, ca speed of light in free space WPART . rest mass of 14C nucleus -16% rest mass of profon) +(8x rest mass of heutron) +(6x1.67 X1627kg) + (8x 1.67X1079) ~ 2.3

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