Electric Potential (Potential Energy)

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SUMMARY

The discussion focuses on calculating the distance of closest approach of a proton to a mercury nuclide when fired at an initial speed of 4.0 x 107 m/s. The correct answer is determined to be 13.8 femtometers (fm). Participants clarify the use of the formula (1/2)mv2 = kqq/r, ensuring consistent units and correct values for the mass of the proton (1.67 x 10-27 kg), electronic charge (1.6 x 10-19 coul), and Coulomb's constant (K = 1/(4πεo), with εo = 8.85 x 10-12 farad/meter).

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  • Understanding of kinetic and potential energy in physics
  • Familiarity with Coulomb's law and electrostatic forces
  • Knowledge of unit consistency in physics calculations
  • Basic proficiency in algebra for solving equations
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  • Study the conservation of energy principle in particle physics
  • Learn about the properties of protons and their interactions with atomic nuclei
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erinec
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Homework Statement


A proton is fired from far away towards a Hg nuclide.
Determine the distance of closest approach of the proton to the
centre of the nuclide when the initial speed of the proton is
4.0 * 107 m/s.
(Answer: 13.8 fm)

Homework Equations


(1/2)mv2 = kqq/r

The Attempt at a Solution


I plug the numbers straight in and solve for r to get 3.113 * 10^-15, which is totally different from the correct answer above. (For mercury charge, I used 80e since mercury has 80 protons.)
 
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Check each term in your expression. Are you using consistent units? That seems like a likely place for error.
 
Yes I used consistent units. And still not getting the answer.
I do not know what I am missing.
 
Well, I just computed it out using the following values:

Mass of proton = 1.67 X 10 ^-27 kg

electronic charge = 1.6 X 10^-19 coul

K = \frac{1}{4\pi\epsilon_o} with \epsilon_o = 8.85 X 10^-12 farad/meter and the rest as you gave and got the right answer. So put it aside and try it in the morning. It could be a simple calculation error.
 
Thanks for the reply!
May I ask what formula you are using to solve for the distance?
 
Well, I just computed it out using the following values:

Mass of proton = 1.67 X 10 ^-27 kg

electronic charge = 1.6 X 10^-19 coul

K = \frac{1}{4\pi\epsilon_o} with \epsilon_o = 8.85 X 10^-12 farad/meter and the rest as you gave and got the right answer. So put it aside and try it in the morning. It could be a simple calculation error.
 
erinec said:
Thanks for the reply!
May I ask what formula you are using to solve for the distance?

Sorry for the double post. I used your equation that you posted. After all, it is the correct expression. Since energy is conserved all of the kinetic energy of the particle become potential energy of the particle at its point of closest approach. I solved your equation for r just like you said.
 
Ah thanks I got the correct answer now.
 
You're welcome!
 

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