Find the Total Current in a Single Loop Circuit

AI Thread Summary
To find the total current in a single loop circuit, the correct formula is Amps = Total Voltage / Total Resistance, but attention must be paid to the polarity of the voltage sources. The initial calculation of 0.39A is incorrect; the proper evaluation of the voltages and resistances yields a current of 0.00833A. It's essential to carefully analyze each battery symbol while traversing the loop to ensure accurate results. Additionally, there is a request for resources on the right-hand rule for magnetic fields. Understanding these concepts is crucial for solving circuit problems effectively.
Walley1
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Homework Statement


Find the current flowing through the circuit.
http://wildedge.zxq.net/IMG.jpg

Homework Equations


Amps=Total Voltage / Total Resistance

The Attempt at a Solution


(20 + 12 + 12 + 3) / (10 + 5 + 30 + 40 + 20 + 15)=0.39A

I'm almost certain that this is wrong. I don't even know if the formula I used is actually valid. Any help you can provide would be greatly appreciated.

On an unrelated note, has anyone seen a good explanation of the right-hand rule (for magnetic fields)?

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Your Relevant Equation is okay, but beware that the polarity of the individual voltage sources matter; look closely at each of the battery symbols as you 'go around' the loop.
 
if you go around the loop carefully, i think the answer is (-20+12+12-3)/(5+30+40+20+15+10)=0.00833A
 

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