If R= 3 Q, determine the output voltage vo and the current through the load resistor, R.

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**Circuit Analysis Problem** Consider the circuit given below. [The circuit diagram consists of an operational amplifier configuration. The circuit includes a 1 A current source at the top, connected in series with an 8 Ω resistor. This connection leads to a junction that branches into the next part of the circuit. To the right of this junction, the circuit features a 10 Ω resistor connected to the inverting input of the operational amplifier, labeled as \( v_x \) and the output voltage \[ v_0 \). Below the 10 Ω resistor, there is another connection to the load resistor labeled R Ω. To the left of the initial junction, there is a 4 Ω resistor connected to the non-inverting input of the operational amplifier, which is grounded. Additionally, there is a controlled voltage source labeled 3\( v_x \) connected in parallel to the non-inverting node. Finally, the current through the resistor R is labeled \( i_0 \).] **Problem Statement** If \( R = 3 \, \Omega \), determine the output voltage \( v_0 \) and the current through the load resistor, \( R \). 1. The value of the output voltage \( v_0 \) is ______ V. 2. The value of the current through the load resistor, \( R \), is ______ A.