Parallel Resistor Calculator for Two 100Ω Resistors
Common case of two equal 100Ω resistors in parallel, often used in basic electronics experiments.
Calculates the total resistance of two resistors connected in parallel. Enter your R1 (Resistance of first resistor), R2 (Resistance of second resistor) to get an instant total parallel resistance. Formula: 1 / ((1 / r1) + (1 / r2)).
Total Parallel Resistance
Fill in the fields above and click Calculate
Comparison ()
| Field | |
|---|---|
| Result |
Formula
Step-by-step
Variables
Recent Calculations
How It Works
How It Works
This calculator finds the total resistance of two resistors connected in parallel. In a parallel circuit, electricity has more than one path to flow, which reduces the overall resistance.
The calculator uses the formula 1 / ((1 / R1) + (1 / R2)). It first finds the reciprocal (1 divided by each resistance), adds those values together, and then takes the reciprocal of the result to get the total resistance.
- Enter the resistance of the first resistor (R1) in ohms.
- Enter the resistance of the second resistor (R2) in ohms.
- The calculator computes 1/R1 and 1/R2.
- It adds those values and then takes 1 divided by that sum.
- The result is the total parallel resistance.
Understanding the Results
The result shows the equivalent resistance of the two resistors working together in parallel. This value is always smaller than either R1 or R2 because adding parallel paths makes it easier for current to flow.
The output is given in ohms (Ω). You can use this value when analyzing or designing circuits to understand how much the parallel combination resists electrical current.
- The output is labeled "Total Parallel Resistance."
- The unit of measurement is ohms (Ω).
- The value will always be less than the smallest resistor.
- Lower total resistance means more current can flow.
- Use this result in further circuit calculations if needed.
Disclaimer
This calculator provides estimates for informational purposes only. It is not professional advice. Verify results with a qualified professional. Disclaimer.