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Voltage Divider Formula Solver

Solve for the output voltage in a two-resistor voltage divider, or find a missing resistor value, with ratio reasoning shown and checked against Ohm's law.

Used 99 times
Expert Verified
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Created byOguz Serdar
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Reviewed byCuneyt Mertayak

Prompt Template

You are an electronics tutor who treats the voltage divider formula as a shortcut built on top of Ohm's law, not a standalone rule to memorize, so you always show where it comes from before you use it.

Work in [MODE:select:solve for the output voltage,solve for a missing resistor value,explain the formula with a worked example] mode.

My values are [KNOWN_VALUES], such as "Vin = 12 volts, R1 = 2 kilohms, R2 = 4 kilohms" or "Vin = 9 volts, R2 = 1 kilohm, target Vout = 3 volts." If I left this blank, ask me for the specific values instead of guessing at a circuit. Before solving anything, confirm which two resistors are in series across the input voltage and which one the output is measured across, since Vout is always taken across R2 in the standard divider layout unless I've told you otherwise.

If I chose solve for the output voltage, start from the fact that the same current flows through both resistors in this series pair, so that current equals Vin divided by the sum of R1 and R2. Write that step out on its own line. Then either multiply that current by R2 directly, or use the shortcut form, Vout equals Vin times R2 over the quantity R1 plus R2, and show both are the same calculation, one just skips writing the current out explicitly. State the final Vout with its unit.

If I chose solve for a missing resistor value, identify which resistor is unknown and rearrange the divider formula to isolate it before substituting numbers, showing the rearranged equation as its own line separate from the version with numbers plugged in. If you're solving for R1, isolate it as R1 equals R2 times the quantity Vin over Vout, minus R2. If you're solving for R2, isolate it as R2 equals R1 times the quantity Vout over the quantity Vin minus Vout. Getting the rearrangement backward is the single most common mistake here, so double check which resistor sits on which side of the ratio before finishing.

If I chose explain the formula with a worked example, use my [KNOWN_VALUES] if they give real numbers, or fall back to a simple 12 volt source with two resistors, and say which one you picked. State the underlying idea first in plain language: since both resistors carry the same current, the resistor that's twice as large ends up with twice the voltage drop, and the two drops always add back up to the full input voltage. Then solve the example using the same step-by-step method above.

Regardless of mode, finish by checking the result. Add the voltage drop across R1 and the voltage drop across R2 together, and confirm that sum equals the original Vin. If it doesn't, one of your two resistor values or the rearrangement got flipped, so retrace the step where you isolated or substituted the unknown instead of adjusting the final number to force a match.

Variables
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About Voltage Divider Formula Solver

A voltage divider looks like a formula to memorize, Vout equals Vin times R2 over R1 plus R2, but memorizing it without knowing where it comes from means you're stuck the moment a problem asks for a missing resistor instead of a missing voltage.

This tool solves the divider from Ohm's law up. It finds the shared current through both resistors first, since that's the fact the whole formula rests on, then either multiplies by R2 directly or shows the shortcut form lands on the identical number. Give it your [KNOWN_VALUES], and it solves for the output. Set [MODE] to a target output voltage and one resistor, and it rearranges the formula to solve for the other, showing the rearranged equation on its own line before any numbers go in.

Every answer gets checked by adding the two voltage drops back together and confirming they equal the original input voltage, so a flipped rearrangement gets caught instead of shipped as the final answer.

Run it in the Dock Editor to keep the worked solution with your circuit notes, or paste it into ChatGPT, Claude, or Gemini. For the single-resistor form this divider is built on, the Ohm's law solver covers V equals I R directly, and once your divider is part of a larger network, the series and parallel circuit solver picks up from there.

How to Use Voltage Divider Formula Solver

1

Paste the prompt and choose your mode

Copy this into ChatGPT, Claude, Gemini, or the Dock Editor, then set [MODE] to solving for the output voltage, solving for a missing resistor, or seeing a worked example.

2

Enter your known values

Fill in [KNOWN_VALUES] with what you have, such as 'Vin = 12 volts, R1 = 2 kilohms, R2 = 4 kilohms,' or a target Vout if you're solving for a resistor instead.

3

Watch the shared-current step run first

Before any shortcut formula, the output finds the single current flowing through both resistors, since that's the fact the whole divider ratio depends on.

4

Follow the rearrangement if solving for a resistor

The rearranged equation appears on its own line, separate from the substituted version, so you can catch a flipped ratio before it turns into a wrong resistor value.

5

Confirm the two drops add back to Vin

The output adds the two individual voltage drops together and checks the sum against your original input voltage before calling the answer final.

Who Uses Voltage Divider Formula Solver

Electronics Students

Get a fully worked divider solution for homework with the shared-current reasoning shown, not just the shortcut formula with numbers dropped in.

DIY Electronics and Hobbyists

Work out the resistor pair you need to scale a sensor signal down to a target voltage before ordering parts.

Electronics Tutors

Generate a worked example that connects Ohm's law to the divider formula, useful for a student who has the formula memorized but doesn't know where it comes from.

Community College Trades Students

Check a voltage divider homework problem against a verified answer before a lab practical, with the check-back step included.

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