How Does Lenz's Law Affect Electron Force Calculation?

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The discussion focuses on calculating the force exerted on an electron at a specific time using the formula F = qvB, where the magnetic field changes over time. The user initially attempted to derive the velocity of the electron but was advised to consider Faraday's law for the induced electric field due to changing magnetic flux. The correct calculation for the force at t = 1.92 s yielded a value of 1.83 x 10^-14 N. Additionally, it was determined that the force equals zero at t = 1.04 s, with t = 0 being invalid. Proper unit conversions and constants for charge and mass were emphasized for accurate results.
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For the situation shown in the figure below, the magnetic field changes with time according to the expression B = 2.07t^3 - 3.95t^2 + .808 and r2 = 2R = 4.96 cm.
Figure: http://east.ilrn.com/books/sepsp06t/pse6e.31.32p.e.jpg

(a) Calculate the magnitude of the force exerted on an electron located at point P2 when t = 1.92 s.

(b) At what time is this force equal to zero?

So, F = qvB and v = (qBr)/m, where m is the mass of an electron.
I got the velocity formula by using F = ma, and substituting F as qvB and a with v^2/r. Then I solved for v. I used the two formulas to calculate the force, but is it incorrect.

Am I doing this right or am I totally wrong?
Any help would be great! Thx!
 
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andrew410 said:
So, F = qvB and v = (qBr)/m, where m is the mass of an electron.
I got the velocity formula by using F = ma, and substituting F as qvB and a with v^2/r. Then I solved for v. I used the two formulas to calculate the force, but is it incorrect.
Who says the electron is moving?

Use Faraday's law to find the induced electric field due to the changing magnetic flux. Hint: Apply Faraday's law to a circle of radius 2R.
 


Your approach is correct, but there are a few things to consider. First, make sure you are using the correct units for the given values. The magnetic field is given in Tesla, so the velocity should be in meters per second and the mass of an electron is in kilograms. Also, make sure to use the correct charge for an electron, which is -1.6 x 10^-19 Coulombs.

(a) To calculate the force on an electron at point P2, we can use the formula F = qvB. Plugging in the given values, we get:

F = (-1.6 x 10^-19 C)(2.07(1.92)^3 - 3.95(1.92)^2 + 0.808)(4.96 cm)(1 m/100 cm) / (9.11 x 10^-31 kg)

F = 1.83 x 10^-14 N

(b) To find the time when the force is equal to zero, we can set the force equation equal to zero and solve for t. This gives us:

0 = (-1.6 x 10^-19 C)(2.07t^3 - 3.95t^2 + 0.808)(4.96 cm)(1 m/100 cm) / (9.11 x 10^-31 kg)

Solving for t gives us t = 0 or t = 1.04 s. Since t = 0 is not a valid solution, the force is equal to zero at t = 1.04 s.
 

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