What Is the Magnitude of the Electric Field Between Parallel Plates?

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Homework Help Overview

The problem involves an electron projected into a uniform electric field between parallel plates, with the goal of finding the magnitude of the electric field. The context includes specific initial conditions such as the electron's speed and the dimensions of the field region.

Discussion Character

  • Exploratory, Assumption checking, Mathematical reasoning

Approaches and Questions Raised

  • Participants discuss the application of kinematics equations to separate horizontal and vertical motion. There are questions about the accuracy of calculations and the potential for rounding errors affecting results.

Discussion Status

Some participants have offered guidance on improving calculation accuracy and suggested solving the problem algebraically to minimize errors. There is an ongoing exploration of different interpretations of the problem setup and calculations.

Contextual Notes

Participants note the importance of quoting units consistently and express concerns about the accuracy of the time calculation, which may impact the final result. There is mention of a deadline for submission and the professor's preference against email communication.

Larissa McNeil
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Homework Statement


An electron is projected with an initial speed v0 = 4.65×106 m/s into the uniform field between the parallel plates in (Figure 1). The direction of the field is vertically downward, and the field is zero except in the space between the two plates. The electron enters the field at a point midway between the plates. If the electron just misses the upper plate as it emerges from the field, find the magnitude of the electric field.
There is a diagram showing the horizontal distance as 2.00cm and the vertical distance as 1.00cm but the electric is situated at half of the vertical distance so 0.5cm.

Homework Equations


kinematics equation: y = vt + 0.5at^2
E=F/q=ma/q[/B]

The Attempt at a Solution


I solved for the horizontal and vertical parts using kinematics.
For horizontal: 0.02=(4.65*10^6)t which equals 4*10^-9
For vertical: (2*0.005)/(4*10^-9)^2 which equals 6.25*10^14
Then I used E=F/q=ma/q:
(9.11*10^-31)(6.25*10^14)/(1.602*10^-19)=3.55*10^3
I've had friends look at my work and they agree with it, but mastering physics keep saying that my answer is wrong. It is due this Sunday and my professor does not like to be emailed. [/B]
 
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Please get into the habit of quoting units everywhere.
Larissa McNeil said:
For horizontal: 0.02=(4.65*10^6)t which equals 4*10^-9
A little inaccurate.
 
My professor showed us how to solve the problem using different numbers. I’m solving it exactly like he did but apparently it’s wrong. My friends who also have to do the homework solved it the way I am and they got it correct. I thought it might be math error but I’ve typed it into the calculator at least ten times.
 
Larissa McNeil said:
For horizontal: 0.02=(4.65*10^6)t which equals 4*10^-9
As @haruspex noted, you've rounded off too much here. So, your value for t is inaccurate. Later, you square t which just compounds the error. It helps to have your calculator in "scientific notation mode".
 
TSny said:
As @haruspex noted, you've rounded off too much here. So, your value for t is inaccurate. Later, you square t which just compounds the error. It helps to have your calculator in "scientific notation mode".
To add to that, another good habit to get into is solving problems algebraically as far as you can. It has many benefits.
Normally this means you can get the answer as a single algebraic expression before plugging in any numbers. You can then do all the calculation in one sequence on your calculator, avoiding the rounding errors that result when you type back in numbers from previous steps.
 

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