How Is Work Calculated When Moving an Electron Between Two Spherical Shells?

The work done by the external force is equal to the change in potential energy, so multiplying the potential difference by the charge of the electron gives you the correct answer of 1.68 * 10^16 J.
  • #1
ku1005
66
0

Homework Statement


Two conducting spherical shells are concentric, with radii of 0.70 m and 1.60 m. The electric potential of the inner shell, with respect to the outer shell, is +1050 V. An electron is transported by an external force from the inner shell to the outer shell. The work done by the external force is closest to:

Solution: 1.68 * 10^16 J


Homework Equations


http://img139.imageshack.us/img139/394/potentialenergyworkqrc7.png


The Attempt at a Solution



Well, I thought I would have to encorporate one of the above formulas, however, I couldn't seem to use any of them...then, I decided I would use

qV = U...and plugging this in it works...

ie (1.6*10^-19C)*(1050V) = 1.68*10^-16 J

HOWEVER- I hate simply plugging in values and would like to actually understand...would anyone be able to explain where this formula comes from/how it is derived...or point me in the right direction as to understanding...cheers i appreciate your time!



cheers
 
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  • #2
im an idiot...

seen as Potential Energy Difference = Work Done

And we know Potential = Energy per unit charge, it makes sense that the potential difference of 1050V multiplied by the charge concerned (ie electron) will give the Change in Potential Energy and thus the work done.

Is this corect thinking?

Thanks again if you read this
 
  • #3
Yes, that's correct. You're looking for the potential difference betwen the two shells which happens to be +1050 V, so PE = qV is the correct formula to use.
 

FAQ: How Is Work Calculated When Moving an Electron Between Two Spherical Shells?

What is work done?

Work done is a measure of the energy transferred to or from an object by a force acting on it. It is calculated by multiplying the force applied by the distance over which the force is applied.

How is work done related to electric potential?

In the context of electricity, work done is related to electric potential as it is the measure of the energy required to move a charged particle from one point to another in an electric field. Electric potential is the potential energy per unit charge at a given point in the electric field.

What is the unit of electric potential?

The unit of electric potential is volts (V), which is equivalent to joules per coulomb (J/C).

How is work done related to voltage?

Voltage is the difference in electric potential between two points in an electric field. Work done is directly related to voltage, as it is the product of charge and voltage. The greater the voltage, the more work is done to move a charged particle through the electric field.

What is the formula for calculating work done in an electric field?

The formula for calculating work done in an electric field is W = qV, where W is work done (in joules), q is the magnitude of charge (in coulombs), and V is the voltage (in volts).

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