How Do You Calculate the Specific Charge of an Electron Using Helmholtz Coils?

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Homework Help Overview

The discussion revolves around calculating the specific charge of an electron using Helmholtz coils, focusing on the relationship between voltage, radius of deflection, and magnetic field. The participants explore the implications of a linear relationship derived from experimental data.

Discussion Character

  • Exploratory, Mathematical reasoning, Assumption checking

Approaches and Questions Raised

  • The original poster attempts to understand how to utilize the slope from a graph of radius squared versus voltage to calculate the specific charge. Questions are raised about substituting values into the formula for specific charge and the validity of using the slope in calculations.

Discussion Status

Participants are actively engaging with the problem, offering suggestions on how to manipulate the given equations and data. Some guidance has been provided regarding the use of the slope and its implications for the calculations, but no consensus has been reached on the final approach.

Contextual Notes

There is an indication of uncertainty regarding the initial steps in the calculation process, and participants are questioning the appropriateness of their assumptions and methods. The discussion also touches on the need to verify results against accepted values for the charge and mass of an electron.

aldrake
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A constand current of 1A is flowing through the Helmholtz coils. When the voltage is altered the radius of the deflection beam changes accordingly. The trend line analysis of radius vs. voltage graphs give an equation of the form y=0.005x+25. (Hint: graph is plotted by considering r^2 (m^2) on y-axis and V(volts) on x-axis.)

a) calculate the specific charge of an electron

b) How do you determine the accepted/standard value of specific charge? (Show your calculations)



(e/m) = 2V/(r^2 * B^2)

I know how to calculate the magnetic field, B, based on a different given formula.

I think I'm making this more difficult than it has to be. Could someone please explain where I need to start with this. Can I replace V/r^2 with the given slope of 0.005?
 
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r² on the vertical axis and V on the horizontal suggests slope = r²/V
 
Okay. Can I substitute the inverse of the slope 1/(0.005) into the equation (e/m)=2V/(r^2 *B^2). Doing this I get (e/m)= 400/(B^2). I can calculate B^2 and solve. Does this seem reasonable?
 
Looks good!
 
Can you determine the standard value of specific charge by simply using the accepted values for the charge of an electron and the accepted values for the mass of an electron (e/m)?
 
Yes, do check the answer that way. It should be reasonably close to the expected value.
 

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