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Need help with Guass Rifle data
Moderators: AmyCowen, kgudger, bfinio, MadelineB, Moderators
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kbcat
- Posts: 1
- Joined: Mon Jan 21, 2013 7:43 am
- Occupation: parent/student
- Project Question: I am helping my 4th grade son with his project. He has built and tested the Guass Rifle. He is now trying to analyze the data. We are just looking at how the number of magnet stages effect the distance the ball travels. His data shows that the distance increases with each magnet stage but not in a proportional pattern. Would this be correct or did we goof somehow? What should his data look like?
- Project Due Date: 2/1/13
- Project Status: I am finished with my experiment and analyzing the data
Need help with Guass Rifle data
I am helping my son with his project. He has completed the trials and now we are analyzing his data. His data shows that the ball bearing travels farther with each magnet stage added but not at equal increments. After adding the second stage the ball travels 8 more cm than the first stage but by the time he added the fifth stage the ball traveled just 1 more cm than the fourth magnet stage. Does this make sense? If so, why? If not, what should that data look like? Thanks!
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kgudger
- Moderator
- Posts: 421
- Joined: Wed Sep 17, 2008 9:20 pm
- Occupation: electronic engineer
- Project Question: n/a
- Project Due Date: n/a
- Project Status: Not applicable
Re: Need help with Guass Rifle data
Hello and welcome to the forums:
I haven't done this exact experiment, but your results make sense to me. You are looking at the "law of diminishing returns". At some point you reach the limit of adding more energy to the ball bearing.
Keith
I haven't done this exact experiment, but your results make sense to me. You are looking at the "law of diminishing returns". At some point you reach the limit of adding more energy to the ball bearing.
Keith
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theborg
- Former Expert
- Posts: 360
- Joined: Mon Oct 03, 2011 12:26 pm
- Occupation: Space Test Analyst
- Project Question: "To explain all nature is too difficult a task for any one man. 'Tis much better to do a little with certainty and leave the rest for others that come after you, than to explain all things by conjecture without making sure of anything." - Sir Isaac Newton
- Project Due Date: N/A
- Project Status: Not applicable
Re: Need help with Guass Rifle data
kbcat,
Here is an attempt at explaining why. Magnetic fields are additive, and by this fact, one would expect that putting two equal magnets together would double the field strength. However, magnetic field strength drops off exponentially as you move away, so the pull is at its strongest right at the surface, but significantly less so just a little ways away. Now you must consider that the two magnets do not occupy the same space. So, if you have 2 magnets stacked up and you place an object on top, you will feel the full effect of the first magnet, but will be the width of the first magnet distance away from the second magnet. Therefore the pull from the second is slightly less than the pull from the first, but still having an effect. So you have a pull that is more than a single magnet, but less than double. This continues to be the case as you add magnet stages...the third magnet is two magnet widths away, etc...
Additionally, you are still working to overcome drag and gravity forces that at some point adding magnet stages will cease to have a significant counter efect for an overall "diminishing returns" as mentioned by Keith.
Here is an attempt at explaining why. Magnetic fields are additive, and by this fact, one would expect that putting two equal magnets together would double the field strength. However, magnetic field strength drops off exponentially as you move away, so the pull is at its strongest right at the surface, but significantly less so just a little ways away. Now you must consider that the two magnets do not occupy the same space. So, if you have 2 magnets stacked up and you place an object on top, you will feel the full effect of the first magnet, but will be the width of the first magnet distance away from the second magnet. Therefore the pull from the second is slightly less than the pull from the first, but still having an effect. So you have a pull that is more than a single magnet, but less than double. This continues to be the case as you add magnet stages...the third magnet is two magnet widths away, etc...
Additionally, you are still working to overcome drag and gravity forces that at some point adding magnet stages will cease to have a significant counter efect for an overall "diminishing returns" as mentioned by Keith.
Hope this helps.
theborg
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