Resistance R is 200 Omega and the sinuso...

Resistance R is 200 `Omega` and the sinusoidal alternating emf device operates at amplitude `E_m`=36.0 V and frequency `f_d`=60.0 Hz.
(a) What is the potential difference `v_R(t)` across the resistance as a function of time t, and what is the amplitude `V_R` of `V_R(t)` ? (b)What is the current `v_R(t)` in the resistance and the amplitude `I_R` of `I_R(t)` ?

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To solve the problem step by step, we will address each part of the question systematically. ### Part (a): Potential Difference across the Resistance 1. **Identify the given values:** - Resistance, \( R = 200 \, \Omega \) - Amplitude of EMF, \( E_m = 36.0 \, V \) - Frequency, \( f_d = 60.0 \, Hz \) ...

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