Study the circuit diagram below and apply the Thevenin's theorem to calculate the current through the 80

March 18, 2026Physics

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March 18, 2026

Answer

50 $Hz, so$ \omega=2\pi f=100\pi\approx314.16$ rad/s.

Question 2.1.1: Total impedance

Step 1: Assume supply frequency $f=50$ Hz, so $\omega=2\pi f=100\pi\approx314.16$ rad/s.

Step 2: Inductive reactance $X_L=\omega L=314.16\times0.5=157.08\,\Omega$ .

Step 3: Capacitive reactance $X_C=\frac{1}{\omega C}=\frac{1}{314.16\times100\times10^{-6}}=\frac{1}{0

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Quick Answer

Question 2.1.1: Total impedance Step 1: Assume supply frequency f=50 Hz, so =2 f=100≈314.16 rad/s.

Asked on March 18, 2026Physics

This physics problem tests your understanding of fundamental physical laws and their applications. The step-by-step solution below breaks down the problem using relevant equations and physical reasoning.

ScanSolve AI AnswerAnswered on March 18, 2026

Question 2.1.1: Total impedance Step 1: Assume supply frequency f=50 Hz, so =2 f=100≈314.16 rad/s. Step 2: Inductive reactance X_L= L=314.16×0.5=157.08\,. Step 3: Capacitive reactance $X_C=(1)/( C)=(1)/(314.16×100×10^-6)=10