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Author Topic: Charge in a uniform magnetic field in 3D  (Read 6255 times)
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ahmedelshfie
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on: June 10, 2010, 12:35:30 am » posted from:SAO PAULO,SAO PAULO,BRAZIL

This following applet is Charge in a uniform magnetic field in 3D
Created by prof Hwang Modified by Ahmed
Original project Charge in a uniform magnetic field in 3D

\vec{F}=q\vec{v}\times\vec{B}.
The following show a charged particle trapped bwtween two uniform field.
You can use sliders to change the width and the separation between two sets of magnet.
The magnetic field is assumed to be uniform Bz\hat{z} inside the magnet region. and the field is zero when outside the boundary.

You can change the location and velocity of the charged particle with mouse drag and drop or with sliders.

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Press the Alt key and the left mouse button to drag the applet off the browser and onto the desktop. This work is licensed under a Creative Commons Attribution 2.5 Taiwan License
  • Please feel free to post your ideas about how to use the simulation for better teaching and learning.
  • Post questions to be asked to help students to think, to explore.
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Let's work together. We can help more users understand physics conceptually and enjoy the fun of learning physics!


* Charge in a uniform magnetic field in 3D.gif (33.82 KB, 667x622 - viewed 516 times.)
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Reply #1 on: October 04, 2010, 12:17:40 pm » posted from:SINGAPORE,SINGAPORE,SINGAPORE

http://link.aip.org/link/?AJP/65/726/1
46% of students surveyed got this question wrong, that means false.
A constant magnetic field never changes the speed magnitude of velocity… of a charged particle which moves in it. (Bagno & Eylon, 1997)

the analysis are:
a. Recitation of formula: field applies force, and force causes acceleration according to Newton’s second law of motion 40% of 46% who got it wrong
b. Blind substitution into formula 37
c. No reason 23



Using this applet, you can see the velocity does not change.
A constant magnetic field never changes the speed magnitude of velocity… of a charged particle which moves in it.
the answer is (true)

Bagno, E., & Eylon, B.-S. (1997). From problem solving to a knowledge structure: An example from the domain of electromagnetism. American Journal of Physics, 65(Cool, 726-736. doi: 10.1119/1.18642
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lookang
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Reply #2 on: October 04, 2010, 12:23:30 pm » posted from:SINGAPORE,SINGAPORE,SINGAPORE

hmmmm, i think i need to customize it for exploring and visualization of


The velocity of a charged particle moving in a magnetic field is always perpendicular to the direction of the field.
37% think it is true, but the answer is false. it could be a supposition of uniform velocity and circular motion, thus there is an angle =! 90o between v and B, much like a helix path

a. Recitation of formula: v, B and F are always perpendicular according to left hand or right screw law 81
b. No reason 19
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