In the figure the ideal batteries have emfs &₁ = 4.89 V and 2 = 10.2 V, the resistances are each 2.41 02, and the potential is defined to be zero at the grounded point of the circuit. What are potentials (a)V₁ and (b)V₂ at the indicated points? (a) Number i (b) Number i Units Units R mu±μ! A& www R₂ R₂ fE₂ R3 www V₁ R₁

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In the figure, the ideal batteries have electromotive forces (emfs) of \( \mathcal{E}_1 = 4.89 \, \text{V} \) and \( \mathcal{E}_2 = 10.2 \, \text{V} \). The resistances each have a value of \( 2.41 \, \Omega \), and the potential is defined to be zero at the grounded point of the circuit. The goal is to determine the potentials \( V_1 \) and \( V_2 \) at the indicated points. **Circuit Diagram Explanation:** - The circuit consists of two batteries \( \mathcal{E}_1 \) and \( \mathcal{E}_2 \) connected in a mixed arrangement of series and parallel resistors. - There are five resistors labeled \( R_1, R_2, R_3, R_4, \) and \( R_5 \). Each resistor has the same resistance value of \( 2.41 \, \Omega \). - The circuit has two nodes labeled \( V_1 \) and \( V_2 \) where the potentials need to be calculated. **Input Fields:** - (a) Number: [Input Box] Units: [Dropdown] - (b) Number: [Input Box] Units: [Dropdown] The input fields imply that the user needs to input the calculated potentials \( V_1 \) and \( V_2 \), selecting the appropriate units from the dropdown menu.