How much current is needed in an inductor to heat up water?

AI Thread Summary
To heat 285g of water from 20.0°C to 100°C, 95,532 J of energy is required, calculated using the specific heat formula. The discussion highlights the confusion regarding how to incorporate the inductor's inductance value in determining the necessary current. The key equation for energy stored in an inductor, U = 1/2 L (i^2), was identified as crucial for solving the problem. By rearranging this equation, the current can be calculated once the energy requirement is established. The conversation emphasizes the importance of recognizing the relationship between stored energy and inductance in solving such physics problems.
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Homework Statement



How much current is needed in a 9.00mH inductor so that the stored energy will be enough to heat 285g of water from 20.0 degrees Celsius to the boiling point of 100 degrees Celsius? Specific heat of water is 4190 J/kg*Celsius.

Homework Equations



q = cm(change in T)

The Attempt at a Solution



q = (4190)(0.285g)(100-20) = 95532 J

After this I got stuck, because I have no idea what to do with the inductance value and how to use it to find current. I looked at all the equations that my professor provided us, but I see no equations relating inductance, current, and energy. Any advice on how to begin would be much appreciated.
 
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Thanks for the reply! In my work, I actually meant kg :) I did figure it out though, all thanks to you saying "energy stored in the inductor." I realized that I could use the equation U = 1/2 L (i^2), where U is the energy, and simply solve for i. For some reason, the stored energy part didn't register in my brain when I read the question, so thanks!
 
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