Defibrillator current physics problem

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A defibrillator delivers 16 A of current for 1.6 ms, resulting in a charge of approximately 0.0256 C moving through the patient. To find the number of electrons that pass, divide this charge by the elementary charge, yielding about 1.6 x 10^17 electrons. For the second problem, the energy delivered to a resistor by a 9.0-V battery over 4 hours is calculated to determine power, which is approximately 13.9 J/s. Using the power formula P = V^2/R, the resistance can be solved once power is known. The discussion emphasizes the application of basic physics equations to solve these problems effectively.
moonlit
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I have two physics problems that I'm not sure how to do, can someone help me?

1) A defibrillator is used during a heart attack to restore the heart to its normal beating pattern. A defibrillator passes 16 A of current through the torso of a person in 1.6 ms. (a) How much charge moves during this time? (b) How many electrons pass through the wires connected to the patient?

2) A resistor is connected across the terminals of a 9.0-V battery, which delivers 2 x 105 J of energy to the resistor in 4 hours. What is the resistance of the resistor?

Should I use the equation delta q=I(delta t) for both these problems?
 
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The first one is just \Delta Q = I \Delta t.

The second one involves the definition of power, namely

P = \frac{d E}{d t} = \frac{V^2}{R}.

- Warren
 
So the answer to part A would be .01 C correct? What about part B?
 
Ok, not sure what to do with part b. P=E/T so wouldn't that be .01? Also, how do I convert amps to volts?
 
Last edited:
Moonlit-
When you first mentioned you were not sure what to do with part (b), I think you were referring to the second part of question #1.

If that is correct, than to find the number of electrons that pass through one of the electrodes, you divide the total charge (what you found in part a) by the charge of each electron.

Number of Electrons = Total Charge / Elementary Charge
n = Q/e
n = .0256C / 1.6*10^-19C
n = 1.6*10^17 electrons
 
I apologize, even though you were talking about part b, I was thinking about question 2! :eek:

- Warren
 

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