How is driven RPM calculated?

Driven RPM equals driver RPM multiplied by the ratio of driver to driven diameters, optionally adjusted by (1 − slip).

Do the formulas depend on using mm or inches?

No. Ratios and RPM are unitless with respect to diameter units. Belt linear speed requires consistent units for length and time.

What slip value should I use?

V-belt slip is typically 1–3% in well-tensioned systems but can be higher. Check manufacturer data or measure in-situ.

Can I solve for a required driven pulley size?

Yes. Enter a Target Driven RPM and the tool computes the driven pulley diameter needed to achieve it.

Does this account for belt thickness or wrap angle?

No. The basic kinematic model assumes pitch diameters and ignores bending/creep. For precision, use pitch diameters from datasheets.

What is belt linear speed?

The tangential velocity of the belt, computed as π × driver diameter × driver RPM with proper unit conversion.

Pulley Speed Calculator

Professional-grade pulley speed calculator. Compute driven RPM, ratio, and belt linear speed with support for slip, unit switching (mm/in), and reverse-solving required pulley size.

Pulley Speed Calculator

This professional pulley speed calculator helps mechanical engineers, technicians, and makers determine driven RPM, drive ratio, and belt linear speed for a two-pulley belt system. It supports millimeter and inch units, accounts for slip, and can reverse-solve the driven pulley size for a target RPM.

Calculator Inputs

Fields marked with * are required. Values must be positive real numbers.

Diameter Units

mm in

Driver pulley diameter

Driven pulley diameter

Driver speed (RPM)

Belt slip (%) (optional)

Target driven RPM (optional: solves required driven pulley diameter)

Results

Driven speed — RPM

Speed ratio (driver:driven) —

Belt linear speed —

Required driven diameter (from target) —

Outputs update automatically. Values are rounded for display; calculations use full precision.

Authoritative Content Ecosystem

Data Source and Methodology

Primary reference: Machinery’s Handbook, 30th Edition (Industrial Press, 2016), Section: Belt Drives. Publisher page: industrialpress.com. All equations here follow standard belt-drive kinematics based on pulley pitch diameters.

Tutti i calcoli si basano rigorosamente sulle formule e sui dati forniti da questa fonte.

The Formula Explained

Ideal speed ratio (ignoring slip):

r = N_1 / N_2 = D_2 / D_1

Driven RPM with slip s (fraction):

N_2 = N_1 \cdot \dfrac{D_1}{D_2} \cdot (1 - s)

Belt linear speed (using driver):

v = \dfrac{\pi\, D_1\, N_1}{60}

Required driven diameter for target N_{2,t}:

D_{2,\mathrm{req}} = \dfrac{D_1\, N_1\, (1 - s)}{N_{2,t}}

Use consistent diameter units (mm or in). For linear speed, D must be converted to meters for m/s.

Glossary of Variables

D1 (driver diameter): Diameter of the driving pulley.
D2 (driven diameter): Diameter of the driven pulley.
N1 (driver RPM): Rotational speed of the driver in RPM.
N2 (driven RPM): Calculated rotational speed of the driven pulley in RPM.
s (slip): Fractional slip (e.g., 0.02 for 2%).
v (belt speed): Tangential belt velocity, reported in m/s and ft/min.
D2req: Driven pulley diameter required to meet a target driven RPM.

How It Works: A Step‑by‑Step Example

Inputs: D1 = 120 mm, D2 = 80 mm, N1 = 1750 RPM, s = 2% (0.02).

Compute ideal ratio r = N1/N2 = D2/D1 = 80/120 = 0.6667. Therefore, N2,ideal = N1 · D1/D2 = 1750 · 120/80 = 2625 RPM.
Apply slip: N2 = 2625 · (1 − 0.02) = 2572.5 RPM.
Belt speed (convert D1 to meters: 120 mm = 0.12 m): v = π · 0.12 · 1750 / 60 ≈ 10.99 m/s (≈ 2166 ft/min).

Result: Driven RPM ≈ 2573 RPM; belt speed ≈ 11.0 m/s.

Frequently Asked Questions (FAQ)

Does pulley diameter unit (mm vs in) affect RPM results?: No. RPM ratio depends on the ratio of diameters, which is unitless. Linear speed does depend on units.
Should I use outer diameter or pitch diameter?: For toothed belts and timing pulleys, use pitch diameter for best accuracy. For V-belts, diameter conventions vary—consult the manufacturer.
What is a typical slip value?: Well-tensioned V-belts: 1–3%. Timing belts: effectively 0% (use s = 0). Worn belts can exceed 5%.
Can I enter zero slip?: Yes. Set slip to 0 to compute the ideal kinematic result.
How do I slow down the driven shaft?: Use a larger driven pulley (increase D2) or a smaller driver (decrease D1). The calculator updates results instantly.
Why does the required diameter show “—”?: You must provide a positive Target Driven RPM to see the required driven diameter.
Is belt thickness or center distance considered?: No. This tool addresses ideal kinematics. For tensioning, wrap angle, and belt length, use dedicated sizing tools and manufacturer data.

Strumento sviluppato da Ugo Candido,. Contenuti verificati da, CalcDomain Engineering Editorial Board.
Ultima revisione per l'accuratezza in data: September 15, 2025.

Audit: Complete

Formula (LaTeX) + variables + units

This section shows the formulas used by the calculator engine, plus variable definitions and units.

Formula (extracted LaTeX)

\[','\]

','

Formula (extracted text)

Ideal speed ratio (ignoring slip): r = N_1 / N_2 = D_2 / D_1 Driven RPM with slip s (fraction): N_2 = N_1 \cdot \dfrac{D_1}{D_2} \cdot (1 - s) Belt linear speed (using driver): v = \dfrac{\pi\, D_1\, N_1}{60} Required driven diameter for target N_{2,t}: D_{2,\mathrm{req}} = \dfrac{D_1\, N_1\, (1 - s)}{N_{2,t}}

Variables and units

No variables provided in audit spec.

Sources (authoritative):

Engineering — calcdomain.com · Accessed 2026-01-19
https://calcdomain.com/engineering
Mechanical — calcdomain.com · Accessed 2026-01-19
https://calcdomain.com/subcategories/mechanical-engineering
industrialpress.com — industrialpress.com · Accessed 2026-01-19
https://www.industrialpress.com/machinerys-handbook-30th-edition.html

Changelog

Version: 0.1.0-draft
Last code update: 2026-01-19

0.1.0-draft · 2026-01-19

Initial audit spec draft generated from HTML extraction (review required).
Verify formulas match the calculator engine and convert any text-only formulas to LaTeX.
Confirm sources are authoritative and relevant to the calculator methodology.

Verified by Ugo Candido on 2026-01-19
Profile · LinkedIn

Full original guide (expanded)

Pulley Speed Calculator

Calculator Inputs

Fields marked with * are required. Values must be positive real numbers.

Diameter Units

mm in

Driver pulley diameter

Driven pulley diameter

Driver speed (RPM)

Belt slip (%) (optional)

Target driven RPM (optional: solves required driven pulley diameter)

Results

Driven speed — RPM

Speed ratio (driver:driven) —

Belt linear speed —

Required driven diameter (from target) —

Outputs update automatically. Values are rounded for display; calculations use full precision.

Authoritative Content Ecosystem

Data Source and Methodology

Tutti i calcoli si basano rigorosamente sulle formule e sui dati forniti da questa fonte.

The Formula Explained

Ideal speed ratio (ignoring slip):

r = N_1 / N_2 = D_2 / D_1

Driven RPM with slip s (fraction):

N_2 = N_1 \cdot \dfrac{D_1}{D_2} \cdot (1 - s)

Belt linear speed (using driver):

v = \dfrac{\pi\, D_1\, N_1}{60}

Required driven diameter for target N_{2,t}:

D_{2,\mathrm{req}} = \dfrac{D_1\, N_1\, (1 - s)}{N_{2,t}}

Use consistent diameter units (mm or in). For linear speed, D must be converted to meters for m/s.

Glossary of Variables

D1 (driver diameter): Diameter of the driving pulley.
D2 (driven diameter): Diameter of the driven pulley.
N1 (driver RPM): Rotational speed of the driver in RPM.
N2 (driven RPM): Calculated rotational speed of the driven pulley in RPM.
s (slip): Fractional slip (e.g., 0.02 for 2%).
v (belt speed): Tangential belt velocity, reported in m/s and ft/min.
D2req: Driven pulley diameter required to meet a target driven RPM.

How It Works: A Step‑by‑Step Example

Inputs: D1 = 120 mm, D2 = 80 mm, N1 = 1750 RPM, s = 2% (0.02).

Compute ideal ratio r = N1/N2 = D2/D1 = 80/120 = 0.6667. Therefore, N2,ideal = N1 · D1/D2 = 1750 · 120/80 = 2625 RPM.
Apply slip: N2 = 2625 · (1 − 0.02) = 2572.5 RPM.
Belt speed (convert D1 to meters: 120 mm = 0.12 m): v = π · 0.12 · 1750 / 60 ≈ 10.99 m/s (≈ 2166 ft/min).

Result: Driven RPM ≈ 2573 RPM; belt speed ≈ 11.0 m/s.

Frequently Asked Questions (FAQ)

Does pulley diameter unit (mm vs in) affect RPM results?: No. RPM ratio depends on the ratio of diameters, which is unitless. Linear speed does depend on units.
Should I use outer diameter or pitch diameter?: For toothed belts and timing pulleys, use pitch diameter for best accuracy. For V-belts, diameter conventions vary—consult the manufacturer.
What is a typical slip value?: Well-tensioned V-belts: 1–3%. Timing belts: effectively 0% (use s = 0). Worn belts can exceed 5%.
Can I enter zero slip?: Yes. Set slip to 0 to compute the ideal kinematic result.
How do I slow down the driven shaft?: Use a larger driven pulley (increase D2) or a smaller driver (decrease D1). The calculator updates results instantly.
Why does the required diameter show “—”?: You must provide a positive Target Driven RPM to see the required driven diameter.
Is belt thickness or center distance considered?: No. This tool addresses ideal kinematics. For tensioning, wrap angle, and belt length, use dedicated sizing tools and manufacturer data.

Strumento sviluppato da Ugo Candido,. Contenuti verificati da, CalcDomain Engineering Editorial Board.
Ultima revisione per l'accuratezza in data: September 15, 2025.

Audit: Complete

Formula (LaTeX) + variables + units

This section shows the formulas used by the calculator engine, plus variable definitions and units.

Formula (extracted LaTeX)

\[','\]

','

Formula (extracted text)

Ideal speed ratio (ignoring slip): r = N_1 / N_2 = D_2 / D_1 Driven RPM with slip s (fraction): N_2 = N_1 \cdot \dfrac{D_1}{D_2} \cdot (1 - s) Belt linear speed (using driver): v = \dfrac{\pi\, D_1\, N_1}{60} Required driven diameter for target N_{2,t}: D_{2,\mathrm{req}} = \dfrac{D_1\, N_1\, (1 - s)}{N_{2,t}}

Variables and units

No variables provided in audit spec.

Sources (authoritative):

Engineering — calcdomain.com · Accessed 2026-01-19
https://calcdomain.com/engineering
Mechanical — calcdomain.com · Accessed 2026-01-19
https://calcdomain.com/subcategories/mechanical-engineering
industrialpress.com — industrialpress.com · Accessed 2026-01-19
https://www.industrialpress.com/machinerys-handbook-30th-edition.html

Changelog

Version: 0.1.0-draft
Last code update: 2026-01-19

0.1.0-draft · 2026-01-19

Initial audit spec draft generated from HTML extraction (review required).
Verify formulas match the calculator engine and convert any text-only formulas to LaTeX.
Confirm sources are authoritative and relevant to the calculator methodology.

Verified by Ugo Candido on 2026-01-19
Profile · LinkedIn

Pulley Speed Calculator

Calculator Inputs

Fields marked with * are required. Values must be positive real numbers.

Diameter Units

mm in

Driver pulley diameter

Driven pulley diameter

Driver speed (RPM)

Belt slip (%) (optional)

Target driven RPM (optional: solves required driven pulley diameter)

Results

Driven speed — RPM

Speed ratio (driver:driven) —

Belt linear speed —

Required driven diameter (from target) —

Outputs update automatically. Values are rounded for display; calculations use full precision.

Authoritative Content Ecosystem

Data Source and Methodology

Tutti i calcoli si basano rigorosamente sulle formule e sui dati forniti da questa fonte.

The Formula Explained

Ideal speed ratio (ignoring slip):

r = N_1 / N_2 = D_2 / D_1

Driven RPM with slip s (fraction):

N_2 = N_1 \cdot \dfrac{D_1}{D_2} \cdot (1 - s)

Belt linear speed (using driver):

v = \dfrac{\pi\, D_1\, N_1}{60}

Required driven diameter for target N_{2,t}:

D_{2,\mathrm{req}} = \dfrac{D_1\, N_1\, (1 - s)}{N_{2,t}}

Use consistent diameter units (mm or in). For linear speed, D must be converted to meters for m/s.

Glossary of Variables

D1 (driver diameter): Diameter of the driving pulley.
D2 (driven diameter): Diameter of the driven pulley.
N1 (driver RPM): Rotational speed of the driver in RPM.
N2 (driven RPM): Calculated rotational speed of the driven pulley in RPM.
s (slip): Fractional slip (e.g., 0.02 for 2%).
v (belt speed): Tangential belt velocity, reported in m/s and ft/min.
D2req: Driven pulley diameter required to meet a target driven RPM.

How It Works: A Step‑by‑Step Example

Inputs: D1 = 120 mm, D2 = 80 mm, N1 = 1750 RPM, s = 2% (0.02).

Compute ideal ratio r = N1/N2 = D2/D1 = 80/120 = 0.6667. Therefore, N2,ideal = N1 · D1/D2 = 1750 · 120/80 = 2625 RPM.
Apply slip: N2 = 2625 · (1 − 0.02) = 2572.5 RPM.
Belt speed (convert D1 to meters: 120 mm = 0.12 m): v = π · 0.12 · 1750 / 60 ≈ 10.99 m/s (≈ 2166 ft/min).

Result: Driven RPM ≈ 2573 RPM; belt speed ≈ 11.0 m/s.

Frequently Asked Questions (FAQ)

Does pulley diameter unit (mm vs in) affect RPM results?: No. RPM ratio depends on the ratio of diameters, which is unitless. Linear speed does depend on units.
Should I use outer diameter or pitch diameter?: For toothed belts and timing pulleys, use pitch diameter for best accuracy. For V-belts, diameter conventions vary—consult the manufacturer.
What is a typical slip value?: Well-tensioned V-belts: 1–3%. Timing belts: effectively 0% (use s = 0). Worn belts can exceed 5%.
Can I enter zero slip?: Yes. Set slip to 0 to compute the ideal kinematic result.
How do I slow down the driven shaft?: Use a larger driven pulley (increase D2) or a smaller driver (decrease D1). The calculator updates results instantly.
Why does the required diameter show “—”?: You must provide a positive Target Driven RPM to see the required driven diameter.
Is belt thickness or center distance considered?: No. This tool addresses ideal kinematics. For tensioning, wrap angle, and belt length, use dedicated sizing tools and manufacturer data.

Strumento sviluppato da Ugo Candido,. Contenuti verificati da, CalcDomain Engineering Editorial Board.
Ultima revisione per l'accuratezza in data: September 15, 2025.

Audit: Complete

Formula (LaTeX) + variables + units

This section shows the formulas used by the calculator engine, plus variable definitions and units.

Formula (extracted LaTeX)

\[','\]

','

Formula (extracted text)

Ideal speed ratio (ignoring slip): r = N_1 / N_2 = D_2 / D_1 Driven RPM with slip s (fraction): N_2 = N_1 \cdot \dfrac{D_1}{D_2} \cdot (1 - s) Belt linear speed (using driver): v = \dfrac{\pi\, D_1\, N_1}{60} Required driven diameter for target N_{2,t}: D_{2,\mathrm{req}} = \dfrac{D_1\, N_1\, (1 - s)}{N_{2,t}}

Variables and units

No variables provided in audit spec.

Sources (authoritative):

Engineering — calcdomain.com · Accessed 2026-01-19
https://calcdomain.com/engineering
Mechanical — calcdomain.com · Accessed 2026-01-19
https://calcdomain.com/subcategories/mechanical-engineering
industrialpress.com — industrialpress.com · Accessed 2026-01-19
https://www.industrialpress.com/machinerys-handbook-30th-edition.html

Changelog

Version: 0.1.0-draft
Last code update: 2026-01-19

0.1.0-draft · 2026-01-19

Initial audit spec draft generated from HTML extraction (review required).
Verify formulas match the calculator engine and convert any text-only formulas to LaTeX.
Confirm sources are authoritative and relevant to the calculator methodology.

Verified by Ugo Candido on 2026-01-19
Profile · LinkedIn

Formulas

(Formulas preserved from original page content, if present.)

Version 0.1.0-draft

Citations

Add authoritative sources relevant to this calculator (standards bodies, manuals, official docs).

Changelog

0.1.0-draft — 2026-01-19: Initial draft (review required).