ttiger2k7
Apr22-08, 08:18 PM
1. The problem statement, all variables and given/known data
The voltage across the terminals of an ac power supply varies with time according to V=V_0\cos(\omega t). The voltage amplitude is V_0 = 46.0 V
From the prior question, I already figured out that the root-mean-square potential difference is 32.5. V
Question What is the average potential difference V_{{\rm a}{\rm v}} between the two terminals of the power supply?
2. Relevant equations
V_{rms}=V/\sqrt{2}
V_{rms}=Vcos(\omega*t+\varphi)
3. The attempt at a solution
At first I thought that the average and the rms was the same thing, but now I can't figure it out. Does it involve finding current?
The voltage across the terminals of an ac power supply varies with time according to V=V_0\cos(\omega t). The voltage amplitude is V_0 = 46.0 V
From the prior question, I already figured out that the root-mean-square potential difference is 32.5. V
Question What is the average potential difference V_{{\rm a}{\rm v}} between the two terminals of the power supply?
2. Relevant equations
V_{rms}=V/\sqrt{2}
V_{rms}=Vcos(\omega*t+\varphi)
3. The attempt at a solution
At first I thought that the average and the rms was the same thing, but now I can't figure it out. Does it involve finding current?