Diagnosing a parallel network from measured total current: Three-branch circuit with branch currents R1 = 12 mA, R2 = 15 mA, R3 = 25 mA. If the measured total is only 27 mA, what conclusion can you draw?
Correct Answer: R3 is open
Introduction / Context:Troubleshooting often involves comparing expected totals from branch data with measured totals. In a parallel circuit, the total current equals the sum of all branch currents. A discrepancy can immediately suggest an open branch or other fault.
Given Data / Assumptions:
- Expected branch currents: 12 mA, 15 mA, 25 mA.
- Measured total current: 27 mA.
- Assume the given branch values represent the normal operating currents.
Concept / Approach:
Compute the expected total and compare to the measured value. If the measured value equals the total minus exactly one branch, that branch is likely open (carrying 0 mA).
Step-by-Step Solution:
Expected total: 12 + 15 + 25 = 52 mA.Difference: 52 mA − 27 mA = 25 mA.The missing 25 mA matches branch R3. Therefore, R3 is open (no current).Verification / Alternative check:
If R3 were open, the total would be 12 + 15 = 27 mA, which matches the measured value. This confirms the diagnosis.
Why Other Options Are Wrong:
R1 open would give 15 + 25 = 40 mA. R2 open would give 12 + 25 = 37 mA. 'Operating properly' contradicts the mismatch. 'Multiple branches are shorted' would raise, not reduce, current.
Common Pitfalls:
Arithmetic slips adding branch currents; overlooking that an open branch contributes zero current.
Final Answer:
R3 is open