Consider the following figure. (Assume V = 34.0 V, R₁ = 2.00 , and R₂ = 6.18 (1.) R₁ 3.000 R₂ 4.00 Ω ℗ (a) Is it possible to reduce the circuit shown in the figure above to a single equivalent resistor connected across the battery? Explain. This answer has not been graded yet. (b) Find the current in the 2.50-2 resistor. A (c) Calculate the power delivered by the battery to the circuit. W

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**Circuit Analysis Exercise** Consider the following figure. (Assume \( V = 34.0 \, \text{V} \), \( R_1 = 2.00 \, \Omega \), and \( R_2 = 6.18 \, \Omega \).) **Diagram Explanation:** The diagram shows a circuit consisting of a battery with voltage \( V \) connected in series to a \( 3.00 \, \Omega \) resistor and a \( 4.00 \, \Omega \) resistor. Additionally, these resistors are connected in parallel with another combination of resistors, specifically \( R_1 = 2.00 \, \Omega \) and \( R_2 = 6.18 \, \Omega \). **Questions:** (a) Is it possible to reduce the circuit shown in the figure above to a single equivalent resistor connected across the battery? Explain. - [Space for answer] This answer has not been graded yet. (b) Find the current in the \( 2.00 \, \Omega \) resistor. - [Space for answer] A (c) Calculate the power delivered by the battery to the circuit. - [Space for answer] W --- This exercise aims to enhance understanding of equivalent resistance in combined series and parallel circuits, calculation of current using Ohm's law, and determination of power delivered by a voltage source.