Answer:
Part A:
Electric potential =[tex]V=9.8821*10^5 V[/tex]
Part B:
Electric Potential Energy=U=[tex]35.57556 MeV[/tex]
Explanation:
Part A:
Charge on the fragment that has 36 Protons in it:
Charge on single roton=[tex]1.6*10^{-19} C[/tex]
Charge on 36 protons=[tex]36*1.6*10^{-19} C[/tex]
Charge on 36 protons=[tex]5.76*10^{-18}\ C[/tex]
Distance=r=[tex]5.24*10^{-14}\ m[/tex]
Formula For electric potential V:
[tex]V=\frac{kQ}{r}[/tex]
Where
k is coulomb constant=[tex]8.99*10^9\ N.m^2/C^2[/tex]
r is the distance
Q is the charge on 6 protons
[tex]V=\frac{5.76*10^{-18}*8.99*10^9}{5.24*10^{-14}}\\V=988213.7405 V\\V=9.8821*10^5 V[/tex]
Electric potential =[tex]V=9.8821*10^5 V[/tex]
Part B:
Electric Potential Energy=U
U=q*V
V is the electric potential
q is the number of protons
[tex]U=36*9.8821*10^5 \\U=35575560 eV\\U=35.57556 MeV[/tex]
Electric Potential Energy=U=[tex]35.57556 MeV[/tex]