Question 25 QMED02 - Electrician-Refrigerating Engineer

The Correct Answer is B **Explanation for Option B (Impedance):** Impedance ($Z$) is the measure of the total opposition that a circuit presents to the flow of alternating current (AC). It is a complex quantity that includes the effects of all three components: resistance ($R$), inductive reactance ($X_L$), and capacitive reactance ($X_C$). Mathematically, impedance is calculated as $Z = \sqrt{R^2 + (X_L - X_C)^2}$. Therefore, impedance is the term for the combined effect of resistance and total reactance. **Why the other options are incorrect:** * **A) total reactance:** Total reactance ($X_{total}$) is the combination of inductive reactance ($X_L$) and capacitive reactance ($X_C$) ($X_{total} = X_L - X_C$). It represents the opposition to current flow due to energy storage elements (inductors and capacitors), but it **excludes** resistance ($R$). * **C) reactance:** Reactance is a general term referring to the opposition to AC flow caused by either inductors (inductive reactance, $X_L$) or capacitors (capacitive reactance, $X_C$). It does not include resistance. * **D) resonance:** Resonance is a *condition* that occurs in an RLC circuit when the inductive reactance perfectly cancels the capacitive reactance ($X_L = X_C$), resulting in minimum impedance (or maximum current, depending on the circuit configuration). It is a state of the circuit, not the term for the combined opposition itself.