Electric Circuit Analysis: Total Voltage, Current, and Resistance Calculation

How to calculate the total voltage, current, and resistance in the given electric circuit?

Given the data of the three lamps connected in parallel with specific current, voltage, and resistance values, how can we determine the total voltage, total current for all lamps, and the total resistance of the circuit?

Answer:

To calculate the total voltage, current, and resistance in the electric circuit with three lamps connected in parallel, we can follow the steps provided:

• Total Voltage: The total voltage in the circuit is equal to the voltage across any of the lamps. In this case, the second lamp has a voltage of 10V, so the total voltage in the circuit is 10V.
• Total Current: Since the lamps are connected in parallel, the total current flowing through the circuit is the sum of the individual currents through each lamp. By calculating the current through each lamp using Ohm's Law, we can determine the total current to be approximately 7.67A.
• Total Resistance: In a parallel circuit, the total resistance is calculated using the reciprocal of the sum of the reciprocals of the individual resistances. With the given resistance values of the lamps, the total resistance of the circuit is determined to be 2 Ohm.

When analyzing an electric circuit, understanding how to calculate the total voltage, current, and resistance is crucial in determining the overall behavior of the circuit. In the case of the circuit with three lamps connected in parallel as described in the data provided, the calculations for total voltage, current, and resistance are essential.

Total Voltage: The total voltage in a parallel circuit is the same across all components connected in parallel. Therefore, the total voltage in the given circuit is equal to the voltage across the second lamp, which is 10V. This means that the total voltage across the entire circuit is also 10V.

Total Current: In a parallel circuit, the total current is the sum of the currents flowing through each individual component. The first lamp has a current of 2A, the third lamp has a current of 4A, and to find the current through the second lamp, we use Ohm's Law. By calculating the current through the second lamp, we can determine that the total current flowing through the circuit is approximately 7.67A.

Total Resistance: The total resistance in a parallel circuit is calculated differently compared to a series circuit. By calculating the reciprocal of the sum of the reciprocals of the individual resistances, we can determine that the total resistance of the circuit with the three lamps connected in parallel is 2 Ohm.

Understanding how to calculate total voltage, current, and resistance in an electric circuit helps in analyzing and predicting the behavior of the circuit. By applying the principles of Ohm's Law and the rules of parallel circuits, we can accurately determine the total values in the given circuit.