An upright rectangular loop of height a and width b has a lightbulb attached to it, with some resistance R. It is immersed in a constant magnetic field with magnitude B0, pointing into the page. Now you want to turn on the lightbulb by using Faraday’s law of electromagnetic induction. Solve for the power delivered in the lightbulb. You may notice that the power delivered in the lightbulb varies as a function of time t. At what values of t will the lightbulb shine the brightest?
An upright rectangular loop of height a and width b has a lightbulb attached to it, with some resistance R. It is immersed in a constant magnetic field with magnitude B0, pointing into the page. Now you want to turn on the lightbulb by using Faraday’s law of electromagnetic induction. Solve for the power delivered in the lightbulb. You may notice that the power delivered in the lightbulb varies as a function of time t. At what values of t will the lightbulb shine the brightest?
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An upright rectangular loop of height a and width b has a lightbulb attached to it, with some resistance R. It is immersed in a constant magnetic field with magnitude B0, pointing into the page. Now you want to turn on the lightbulb by using Faraday’s law of electromagnetic induction.
Solve for the power delivered in the lightbulb.
You may notice that the power delivered in the lightbulb varies as a function of time t. At what values of t will the lightbulb shine the brightest?
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