Determine the Norton equivalent at terminals a-b for the circuit in the figure. Given: /= 8 A. 10i。 4Ω The value of RN is - 292 wwwa b and the value of IN is A.

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**Transcription for Educational Website:**

**Objective:**
Determine the Norton equivalent at terminals \( a-b \) for the circuit shown in the figure. 

**Given:** 
Current source, \( I = 8 \) A.

**Circuit Description:**

- The circuit includes a current source \( I \) connected in series with a 4 \(\Omega\) resistor.
- There is a dependent voltage source \( 10i_o \) controlled by the current \( i_o \), which is the current flowing through the 4 \(\Omega\) resistor.
- The dependent voltage source is parallel to a 2 \(\Omega\) resistor, leading to terminals \( a-b \).

**Required:**

- Calculate the Norton resistance \( R_N \) across terminals \( a-b \).
- Calculate the Norton current \( I_N \).

**Fill in the boxes:**

- The value of \( R_N \) is \(\_\_\_\_\_\) \(\Omega\) and the value of \( I_N \) is \(\_\_\_\_\_\) A.
Transcribed Image Text:**Transcription for Educational Website:** **Objective:** Determine the Norton equivalent at terminals \( a-b \) for the circuit shown in the figure. **Given:** Current source, \( I = 8 \) A. **Circuit Description:** - The circuit includes a current source \( I \) connected in series with a 4 \(\Omega\) resistor. - There is a dependent voltage source \( 10i_o \) controlled by the current \( i_o \), which is the current flowing through the 4 \(\Omega\) resistor. - The dependent voltage source is parallel to a 2 \(\Omega\) resistor, leading to terminals \( a-b \). **Required:** - Calculate the Norton resistance \( R_N \) across terminals \( a-b \). - Calculate the Norton current \( I_N \). **Fill in the boxes:** - The value of \( R_N \) is \(\_\_\_\_\_\) \(\Omega\) and the value of \( I_N \) is \(\_\_\_\_\_\) A.
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