The sum of voltage drops in a series circuit:

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Prepare for the ETA Electronics Certification Exam. Study with flashcards and multiple choice questions, each providing hints and explanations. Ace your exam with confidence!

Multiple Choice

The sum of voltage drops in a series circuit:

Explanation:
In a series circuit, the sum of the voltage drops across all components equals the total applied voltage. This principle is a direct consequence of Kirchhoff's Voltage Law, which states that the total voltage around any closed circuit must equal zero. In practical terms, when voltage is supplied by a source (such as a battery), it gets divided among all the resistive components in the circuit. Each component has a specific resistance and thus will have a distinct voltage drop according to Ohm's Law (V = IR). For example, if you have a battery supplying 12V and three resistors in series (with voltage drops of 4V, 3V, and 5V across each), when you sum those voltage drops (4V + 3V + 5V), the total comes to 12V, which matches the voltage supplied by the battery. This demonstrates that the total voltage drop across all components in a series circuit is equal to the applied voltage.

In a series circuit, the sum of the voltage drops across all components equals the total applied voltage. This principle is a direct consequence of Kirchhoff's Voltage Law, which states that the total voltage around any closed circuit must equal zero. In practical terms, when voltage is supplied by a source (such as a battery), it gets divided among all the resistive components in the circuit. Each component has a specific resistance and thus will have a distinct voltage drop according to Ohm's Law (V = IR).

For example, if you have a battery supplying 12V and three resistors in series (with voltage drops of 4V, 3V, and 5V across each), when you sum those voltage drops (4V + 3V + 5V), the total comes to 12V, which matches the voltage supplied by the battery. This demonstrates that the total voltage drop across all components in a series circuit is equal to the applied voltage.

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