To find the velocity of the particle

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SUMMARY

The discussion focuses on calculating the velocity of a negatively charged particle as it approaches a positively charged metal sphere with a radius of 0.10m and a charge of 1.0 x 10^{-4}C. The particle, with a mass of 2.0 x 10^{-5}kg and a charge of 1.5 x 10^{-10}C, is released from a distance of 1.0m from the sphere's center. The correct velocity upon striking the sphere's surface is determined to be 11m/s, achieved by correctly applying the potential energy formula and recognizing the change in distance from 1.0m to 0.1m.

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  • Understanding of electrostatics, specifically Coulomb's law
  • Familiarity with the concepts of kinetic energy (KE) and potential energy (PE)
  • Knowledge of the relationship between mass, charge, and distance in electric fields
  • Basic algebra for solving equations involving energy
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  • Study the principles of energy conservation in electric fields
  • Learn about the derivation and application of potential energy formulas in electrostatics
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This discussion is beneficial for physics students, educators, and anyone interested in understanding the dynamics of charged particles in electric fields, particularly in electrostatics and energy conservation contexts.

Clari
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A metal sphere of radius 0.10m carries a positive charge of [tex]1.0 x 10^{-4}C[/tex]. A particle of mass [tex]2.0 x 10^{-5}kg[/tex] carrying a negative charge of [tex]1.5 x 10^{-10}C[/tex] is released from rest at a distance of 1.0m from the centre of the sphere. Calculate the velocity of the particle when it srtikes the surface of the sphere. Neglect the gravitational effect.

I cannot get the correct answer, which is 11m/s...anyway, here are my steps:

KE gained = PE loss
1/2 mv^2 = [tex]\frac{Qq}{4\pi\epsilon r}[/tex]
v = 3.87 m/s
 
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Clari said:
I cannot get the correct answer, which is 11m/s...anyway
v = 3.87 m/s

Your method is right, you're just using the wrong distance in the PE. Remember, the particle goes from r=1 m to r=0.1 m, not from r=infinity to r=1 m.
 
Thank you SpaceTiger!
I get the answer now, I thought that the PE on reaching the surface of the sphere is zero... :-p
 

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