ET = 30V IT= RT=12 PT = Vi = I1 = R1 = 1.22 = 1.22 P1 V2 = 24V I2 = R2 = P2 = V3 = I3 = R3 = P3

Fill in the blanks for Ampacity, Voltage, Power and Resistance.

Transcribed Image Text:

**Voltage, Current, Resistance, and Power Formulas** 1. **Total Voltage**: \( E_T = 30V \) 2. **Individual Voltages**: \( V_1 = \) \( V_2 = 24V \) \( V_3 = \) 3. **Total Resistance**: \( R_T = 1Ω \) 4. **Individual Resistances**: \( R_1 = 1.2Ω \) \( R_2 = \) \( R_3 = \) 5. **Total Current**: \( I_T = \) 6. **Individual Currents**: \( I_1 = \) \( I_2 = \) \( I_3 = \) 7. **Total Power**: \( P_T = \) 8. **Individual Powers**: \( P_1 = \) \( P_2 = \) \( P_3 = \)

Transcribed Image Text:

This image depicts an electrical circuit diagram with three resistors. Here's a detailed explanation of the components and layout: **Diagram Components:** 1. **Resistors:** - **R1** and **R2** are connected in parallel. This parallel configuration means the current can flow through either resistor. - **R3** is connected in series with the parallel combination of R1 and R2, meaning the current flows through R3 after passing through either R1 or R2. 2. **Electrical Connections:** - The circuit begins with a positive terminal on the left, marked with a positive sign (+). - The circuit ends with a negative terminal on the right, marked with a negative sign (-). 3. **Flow of Current:** - Current flows from the positive terminal through R1 and R2 (parallel resistors), combines back, and then flows through R3 before reaching the negative terminal. This schematic is an example of a mixed configuration circuit containing both series and parallel resistors, illustrating the paths currents can take in a simple electrical circuit.