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⚙️ Gear Ratio Calculator

Enter the driver (input) and driven (output) gear teeth counts and input RPM to instantly calculate gear ratio, output RPM, and torque multiplier. Supports an optional 2-stage gear configuration.

Enter the gear teeth counts and input RPM. Real gear trains lose some efficiency to friction (this is an ideal calculation).

Results
Gear Ratio
Output RPM
Torque Multiplier
GUIDE

Learn more

01

What Is Gear Ratio?

Gear ratio describes how rotational speed (RPM) and torque change when two gears mesh.

Gear ratio = driven gear teeth ÷ driver gear teeth

A ratio greater than 1 means reduction (lower output RPM, higher torque); a ratio less than 1 means overdrive (higher output RPM, lower torque).
02

Calculating Output RPM and Torque Multiplier

Output RPM = Input RPM × (driver teeth ÷ driven teeth)
Torque multiplier = driven teeth ÷ driver teeth (ideal case, no friction losses)

For example, with 10 driver teeth and 40 driven teeth, the gear ratio is 4:1; at 1000 RPM input, output is 250 RPM with 4× torque. In practice, bearing friction and mesh losses mean transmission efficiency is below 100%, so real output torque is somewhat lower than this calculated value.
03

Overall Ratio for a 2-Stage Gear Train

With a 2-stage configuration (e.g. an idler stage inside a reducer), multiply each stage's ratio to get the overall ratio.

Overall ratio = stage 1 ratio × stage 2 ratio

If stage 1 is 4:1 and stage 2 is 3:1, the overall ratio is 12:1 — reducing input RPM to 1/12 while multiplying torque by 12×. Multi-stage reducers let you achieve large reduction ratios in a compact space.

Frequently asked questions

Can I use gear diameter instead of teeth count?
Yes — if the gears share the same module (pitch), the teeth-count ratio equals the pitch-diameter ratio, so diameters give the same result. Gears with different modules must use teeth counts instead.
How far off is the torque multiplier from real-world values?
This calculator assumes an ideal (100% efficient, frictionless) case. Real gear trains typically run at 90–98% efficiency, so actual output torque is closer to the calculated value times that efficiency.
Can I see the intermediate RPM in a 2-stage setup?
This calculator shows the final output RPM and overall ratio/torque multiplier. To get the intermediate RPM (right after stage 1), multiply the input RPM by the reciprocal of stage 1's ratio yourself.