GR0177 #86
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Copperknickers 2016-07-08 06:46:05 | Is there a simpler way to figure out the cos(wt), sin(wt) part? Without having to remember any formula by rote, that is? asdfman\'s solutions seems nice. Any alternative ones?
asdfasdfasdf 2016-09-07 14:53:11 |
I\'m not sure there\'s a simpler way to figure out the trig part. The only \"memorization\" needed is: (a) what are sin(0) and cos(0)? (b) what is the derivative of sin(wt) or cos(wt)? The question provides the initial condition of the n vector being parallel to the y-axis. When that is the case, there is no magnetic flux through the coil, right? So, when t=0, we should have B=0. sin(0)=0, so we\'ll use sine, not cosine. And you know you need to use some sort of periodic function since it\'s rotating...once it rotates such that the n vector lies parallel to the x-axis, we have the maximum flux possible, right? sin(90)=1, so that confirms that we should use sine.Then, since we get our emf from d(phi)/dt, we need the derivative of sin(wt), which is w*cos(wt).Does that help? [also, sorry if this text gets garbled...I\'m not sure why slashes are being randomly inserted.]
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| | John Smith 2013-10-17 02:02:09 | I am a foreigner, the time when I solve this question, I can hardly notice that the FUNK MILLIamperes. That will cost me lots of time if it happened in the real test. | | asdfman 2009-11-02 23:47:03 | it says the coil starts at which means and therefore a function.
must therefore be a cosine.
Do some algebra and you realize that it'll be something like 1.5^2, so it'll have something ~2.25 or 2.5. The only answer that fits the bill is E. | | theevilmachines 2009-07-12 17:58:53 | I don't know about you guys, but my 0177 test doesn't have as an answer choice. Choice E is . Am I missing something?
theevilmachines 2009-08-24 15:31:09 |
Oh it says in milliamperes, not amperes.
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| | duckduck_85 2008-11-03 22:20:12 | how do you know that the resistance given in the problem isn't for the entire coil? (so that you needn't take the # of turns into account)
elzoido238 2008-11-07 19:17:30 |
The problem states that "...the coil resistance is 9 , which I interpret as the resistance of the entire coil. Since Yosun found the flux for 1 turn of the coil, you would need to account for the number of turns in the coil by dividing the total resistance by N (if, however one found the flux for the entire coil - i.e. =NBsin(t) - one would not need to find the resistance per turn.)
Thanks Yosun for this kick-ass site! :)
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| | sblmstyl 2008-10-15 21:39:49 | thanks yosun! | | naama99 2006-11-29 21:16:46 | What do you mean by \"one uses Ohm's Law in Faraday's Law"? Can you be more specific about it? It seems to me that you are taking the R given in the question and merely using it as L
Richard 2007-10-29 09:53:54 |
I'm pretty sure she just means,
take Ohm's law and substitute the expression for the induced voltage given by Faraday's law:
Of course you need to take into account the number of turns...
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| | radicaltyro 2006-10-28 21:53:31 | You are missing the in your final answer. | |
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