Find the Norton equivalent with respect to the terminals a, b for the circuit in (Figure 1). Suppose that R = 14 2 and v, = 87 V. Figure ▼ ▼ Part A Part B ■ IN = Value μA RN = Find the current IN. Express your answer to three significant figures and include the appropriate units. 552 ww μA Value Units R Units € 20 Ω 802 ? Find the resistance RN. Express your answer to three significant figures and include the appropriate units. a ? b 1 of 1

A&b pls.

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**Norton Equivalent Circuit Analysis** To find the Norton equivalent with respect to the terminals \( a, b \) for the given circuit, the following parameters are provided: \( R = 14 \, \Omega \) and \( v_s = 87 \, V \). **Circuit Diagram Description:** - The circuit includes a voltage source \( v_s \) and three resistors. - The resistors are connected as follows: - A \( 5 \, \Omega \) resistor in series with the voltage source. - An \( 8 \, \Omega \) resistor is in parallel with a \( 20 \, \Omega \) resistor. - The combination of these resistors forms a network between the terminals \( a \) and \( b \). **Tasks:** - **Part A: Find the Current \( I_N \).** - Express your answer to three significant figures and include the appropriate units. - Input field is provided for entering \( I_N \) in suitable units (e.g., microamperes). - **Part B: Find the Resistance \( R_N \).** - Express your answer to three significant figures and include the appropriate units. - Input field is provided for entering \( R_N \) in suitable units (e.g., ohms). The figure depicts a series-parallel resistive network that needs to be analyzed to determine the Norton equivalent parameters.