24. A sinusoidal voltage is applied to the resistive circuit in Figure 11-80. Determine the following: Figure 11-80 P 10 V R 1.0 ΚΩ

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Certainly! Below is the transcription and explanation of the text and figure:

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**24.** A sinusoidal voltage is applied to the resistive circuit in **Figure 11–80**. Determine the following:

**Figure 11–80**

The diagram shows a simple resistive circuit with a sine wave voltage source labeled \( V_p \) with a peak voltage of 10 V, connected to a resistor labeled \( R \) with a resistance of 1.0 kΩ.

Determine:

- \( I_{pp} \)
- \( i \) at the positive peak

---

**Explanation:**

- **Circuit Description:** The circuit consists of a sinusoidal voltage source and a series resistor. This is a typical setup for analyzing the behavior of sinusoidal voltages across resistive loads.
- **Components:**
  - **Voltage Source:** Denoted by \( V_p \), it provides a sinusoidal waveform with a peak voltage of 10 volts.
  - **Resistor:** Denoted by \( R \), with a resistance value of 1.0 kΩ (1000 Ohms).
- **Tasks:**
  - **\( I_{pp} \):** Indicates the current peak-to-peak value across the resistor.
  - **\( i \) at the positive peak:** Refers to the instantaneous current value at the maximum positive voltage peak.

This setup is commonly used to study the basic principles of AC circuit analysis, focusing on how voltage and current behave in resistive circuits when subjected to sinusoidal input.
Transcribed Image Text:Certainly! Below is the transcription and explanation of the text and figure: --- **24.** A sinusoidal voltage is applied to the resistive circuit in **Figure 11–80**. Determine the following: **Figure 11–80** The diagram shows a simple resistive circuit with a sine wave voltage source labeled \( V_p \) with a peak voltage of 10 V, connected to a resistor labeled \( R \) with a resistance of 1.0 kΩ. Determine: - \( I_{pp} \) - \( i \) at the positive peak --- **Explanation:** - **Circuit Description:** The circuit consists of a sinusoidal voltage source and a series resistor. This is a typical setup for analyzing the behavior of sinusoidal voltages across resistive loads. - **Components:** - **Voltage Source:** Denoted by \( V_p \), it provides a sinusoidal waveform with a peak voltage of 10 volts. - **Resistor:** Denoted by \( R \), with a resistance value of 1.0 kΩ (1000 Ohms). - **Tasks:** - **\( I_{pp} \):** Indicates the current peak-to-peak value across the resistor. - **\( i \) at the positive peak:** Refers to the instantaneous current value at the maximum positive voltage peak. This setup is commonly used to study the basic principles of AC circuit analysis, focusing on how voltage and current behave in resistive circuits when subjected to sinusoidal input.
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