**Transformer Analysis****Problem Statement:**For a transformer, the primary winding \( N_1 = 1000 \) turns, and the secondary winding \( N_2 = 200 \) turns. The primary voltage \( V_1 = 220 \) volts, and the secondary resistance is 22 ohms.**Question:**What is the secondary current in amperes?---**Diagram Explanation:**The diagram illustrates a simple transformer circuit:- **Source:** An AC voltage source providing \( 220 \) volts RMS at \( 50 \) Hz with a phase angle of \( 0^\circ \). - **Transformer:** Labeled as \( T1 \), it shows the connection between the primary and secondary coils, indicating the step-down transformation from the primary to the secondary side. - **Load:** A resistive load \( R_{\text{load}} \) with a resistance of \( 22 \) ohms is connected across the secondary winding.The circuit demonstrates the basic operation of a step-down transformer with a reduced voltage output at the secondary side due to fewer turns in the secondary coil compared to the primary coil. The resulting current should be calculated based on the parameters and load resistance provided.

Solution:-Given thatFor Primary windings;N1=1000 turnsN2=200 turnsV1=220 voltsFor Secondary…

Answered: For Transformer winding1 N131000 turns,…

For Transformer winding1 N131000 turns, N2= 200 turns and V1=220 Volts, secondary resistance of 22 Ohms. What is the secondary current in unit of ampheres? Vac T1 220 Vrms 50 Hz Rload 220

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Question

**Transformer Analysis**

**Problem Statement:**

For a transformer, the primary winding \( N_1 = 1000 \) turns, and the secondary winding \( N_2 = 200 \) turns. The primary voltage \( V_1 = 220 \) volts, and the secondary resistance is 22 ohms.

**Question:**
What is the secondary current in amperes?

---

**Diagram Explanation:**

The diagram illustrates a simple transformer circuit:

- **Source:** An AC voltage source providing \( 220 \) volts RMS at \( 50 \) Hz with a phase angle of \( 0^\circ \).

- **Transformer:** Labeled as \( T1 \), it shows the connection between the primary and secondary coils, indicating the step-down transformation from the primary to the secondary side.

- **Load:** A resistive load \( R_{\text{load}} \) with a resistance of \( 22 \) ohms is connected across the secondary winding.

The circuit demonstrates the basic operation of a step-down transformer with a reduced voltage output at the secondary side due to fewer turns in the secondary coil compared to the primary coil. The resulting current should be calculated based on the parameters and load resistance provided.

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