P = (1205²75052 4 y W 11. Determine the voltage drop across each element, the current through each element, the power dissipated by each element, the total resistance, the source current, and the total power. Additionally, determine R1. 1₁ = 1₂ = IT = ● R₁ = - R₂ = 2300 RT = 2 V₁ = 8V V₂ = Vs = 20V P₁ = P₂ = PT =

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**Circuit Analysis Problem** 11. Determine the voltage drop across each element, the current through each element, the power dissipated by each element, the total resistance, the source current, and the total power. Additionally, determine R1. **Table: Circuit Parameters** | | | | | | |---|---|---|----|----| | I₂ = | I₂ = | I₁ = | I₁ = | | R₂ = | R₂ = 230Ω | R₁ = | R₁ = | | Rₜ = Ω | | V₂ = | V₁ = 8V | | Vs = 20V | | | | | Pₜ = | P₂ = | P₁ = | | **Instructions** Given that R₂ = 230Ω and V₁ = 8V, you need to compute: - Voltage drop across each element (V₁, V₂) - Current through each element (I₁, I₂) - Power dissipated by each element (P₁, P₂) - Total resistance (Rₜ) - Source current - Total power (Pₜ) - Resistance R₁ Use the basic formulas from Ohm's Law and power calculations for these computations.

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**Circuit Power Calculation Problem** **Task**: Calculate the power in each of the three circuits shown below. **Diagram Explanation**: This is a simple electrical circuit with the following components: - A 20V battery. - Two resistors in series: - Resistor R2 with a resistance of 230Ω. - Resistor R1 (resistance not specified in the diagram). **Instructions**: 1. Analyze the circuit to determine the total resistance. 2. Use Ohm’s Law to find the current flowing through the circuit. 3. Calculate the power dissipated by each resistor using the formula: \[ P = I^2 \times R \] where \( P \) is power, \( I \) is current, and \( R \) is resistance.