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

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### Educational Content: Series Circuit Diagram #### Image Description: The image depicts a series circuit diagram with three resistors labeled R1, R2, and R3. The circuit includes the following components: - **Positive Terminal:** Indicated by a plus sign at the top of the diagram. - **Resistor R1:** Positioned vertically below the positive terminal. - **Resistor R2:** Horizontally aligned and connected to the bottom of R1. - **Resistor R3:** Connected vertically below R2, leading to the negative terminal. - **Negative Terminal:** Indicated by a minus sign at the bottom of the diagram. #### Diagram Explanation: This circuit is a simple series configuration where electrical current flows through each component sequentially. The resistors are aligned in a straight path, and the total resistance is the sum of all individual resistances (R1 + R2 + R3). This configuration allows us to analyze basic concepts such as Ohm's Law and total resistance in series circuits. Additionally, there is text on the side stating, "This Page Left Blank Intentionally," which is irrelevant to the circuit diagram. #### Key Concepts: 1. **Series Circuit:** An arrangement where components are connected end-to-end, providing a single path for current flow. 2. **Ohm’s Law:** Used to calculate voltage, current, and resistance in the circuit using the formula V = IR, where V is voltage, I is current, and R is resistance. 3. **Total Resistance:** In a series circuit, the total resistance (R_total) is the sum of all resistors: \[ R_{\text{total}} = R1 + R2 + R3 \] Understanding this basic series circuit is fundamental for learning more complex electrical circuits and their applications.

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This section contains information about electrical parameters for components in a circuit, as follows: - **Voltages (V):** - \( V_1 = \) - \( V_2 = \) - \( V_3 = \) - **Total Voltage (VT):** - \( VT = \) - **Currents (I):** - \( I_1 = \) - \( I_2 = \) - \( I_3 = \) - **Total Current (IT):** - \( IT = \) - **Resistances (R):** - \( R_1 = 568 \, \Omega \) - \( R_2 = \) - \( R_3 = \) - **Total Resistance (RT):** - \( RT = 2.22 \, k\Omega \) - **Powers (P):** - \( P_1 = \) - \( P_2 = 75 \, W \) - \( P_3 = 100 \, W \) - **Total Power (PT):** - \( PT = \) This layout is designed to help visualize and calculate the electrical parameters in a circuit such as voltages, currents, resistances, and power for different components and their totals.