Convert Meters per Second to Knots - Speed Converter
This tool converts a speed value given in meters per second (m/s) to knots (nautical miles per hour) using the internationally agreed unit definitions. It is intended for navigation, meteorology, and engineering use where a direct, repeatable conversion is required.
The conversion uses the fixed relationship defined by the international nautical mile (1 nautical mile = 1852 meters). The result is a simple scaling of the input value; no environmental corrections are applied by the converter.
When using converted values for safety-critical tasks, instrument calibration and traceability to national metrology standards are important. See the methodology and citations for guidance on uncertainty and standards references.
Governance
Record d2c7d7b503dc • Reviewed by Fidamen Standards Committee
Interactive Converter
Convert between meter per second and knot with precision rounding.
Quick reference table
| Meter per Second | Knot |
|---|---|
| 1 m/s | 6.9979 kn |
| 5 m/s | 34.9895 kn |
| 10 m/s | 69.979 kn |
| 25 m/s | 174.9475 kn |
| 50 m/s | 349.895 kn |
| 100 m/s | 699.7901 kn |
Methodology
Conversion is a fixed linear scale based on the international definition: 1 knot = 1 nautical mile per hour = 1852 meters / 3600 seconds = 0.514444444... meters per second. The converter multiplies the input (m/s) by the reciprocal of 0.514444444... to produce knots.
The numeric factor is derived from internationally maintained definitions. For reporting and regulatory compliance, maintain traceability to national metrology institutes and follow guidance on measurement uncertainty from standards bodies.
Floating-point rounding and display precision do not change the true mathematical result; they only affect presented precision. For safety- or compliance-critical uses, round and report results consistent with the relevant standard (for example, number of significant figures required by the application) and keep instrument calibration records.
Key takeaways
This converter applies a precise multiplication factor to transform meters per second into knots using the international definition of the nautical mile.
For operational use, combine converted values with measurement uncertainty, calibration records, and applicable standards for compliance or safety-critical decisions.
Worked examples
Example: 10 m/s × 1.9438444924406 = 19.438444924406 knots (display may be rounded to 19.44 knots).
Example: 0.514444444444 m/s ≈ 1.0 knot by definition.
F.A.Q.
What is the exact conversion factor from meters per second to knots?
Exact relationship: 1 knot = 0.514444444444... meters per second. Therefore knots = meters_per_second ÷ 0.514444444444... or multiplied by approximately 1.9438444924406.
Why is a nautical mile 1852 meters?
The international nautical mile was standardized to 1852 meters by international agreement to provide a consistent unit for navigation and charting. See standards bodies for the historical and legal basis.
How many decimal places should I use for navigation or weather reporting?
Required precision depends on the application. For general navigation, one decimal place in knots is common. For scientific or instrument-grade data, report according to instrument uncertainty and applicable standards. Follow guidance from national metrology and domain-specific regulations.
Does this converter account for measurement uncertainty or instrument calibration?
No. This converter applies a deterministic mathematical scale only. Measurement uncertainty and calibration traceability must be handled separately and documented according to relevant standards.
Can I convert knots back to meters per second?
Yes. The inverse relationship is meters_per_second = knots × 0.514444444444... A sibling converter or the reverse operation can perform that calculation.
Sources & citations
- NIST — Nautical Mile and Units of Length — https://www.nist.gov/pml/weights-and-measures/nautical-mile
- International Hydrographic Organization — https://iho.int
- ISO — Quantities and Units (ISO 80000 series) — https://www.iso.org/iso-80000-1.html
- IEEE Standard for Floating-Point Arithmetic (IEEE 754) — https://standards.ieee.org/standard/754-2019.html
- OSHA — Safety and Measurement Guidance — https://www.osha.gov
- NIST SP 811 — Guide for the Use of the International System of Units — https://www.nist.gov/pml/special-publication-811
Further resources
Related tools
External guidance
Versioning & Change Control
Audit record (versions, QA runs, reviewer sign-off, and evidence).
Record ID: d2c7d7b503dcWhat changed (latest)
v1.0.0 • 2025-11-10 • MINOR
Initial publication and governance baseline.
Why: Published with reviewed formulas, unit definitions, and UX controls.
Public QA status
PASS — golden 25 + edge 120
Last run: 2026-01-23 • Run: golden-edge-2026-01-23
Versioning & Change Control
Audit record (versions, QA runs, reviewer sign-off, and evidence).
What changed (latest)
v1.0.0 • 2025-11-10 • MINOR
Initial publication and governance baseline.
Why: Published with reviewed formulas, unit definitions, and UX controls.
Public QA status
PASS — golden 25 + edge 120
Last run: 2026-01-23 • Run: golden-edge-2026-01-23
Engine
v1.0.0
Data
Baseline (no external datasets)
Content
v1.0.0
UI
v1.0.0
Governance
Last updated: Nov 10, 2025
Reviewed by: Fidamen Standards Committee (Review board)
Credentials: Internal QA
Risk level: low
Reviewer profile (entity)
Fidamen Standards Committee
Review board
Internal QA
Entity ID: https://fidamen.com/reviewers/fidamen-standards-committee#person
Semantic versioning
- MAJOR: Calculation outputs can change for the same inputs (formula, rounding policy, assumptions).
- MINOR: New features or fields that do not change existing outputs for the same inputs.
- PATCH: Bug fixes, copy edits, or accessibility changes that do not change intended outputs except for previously incorrect cases.
Review protocol
- Verify formulas and unit definitions against primary standards or datasets.
- Run golden-case regression suite and edge-case suite.
- Record reviewer sign-off with credentials and scope.
- Document assumptions, limitations, and jurisdiction applicability.
Assumptions & limitations
- Uses exact unit definitions from the Fidamen conversion library.
- Internal calculations use double precision; display rounding follows the unit's configured decimal places.
- Not a substitute for calibrated instruments in regulated contexts.
- Jurisdiction-specific rules may require official guidance.
Change log
v1.0.0 • 2025-11-10 • MINOR
Initial publication and governance baseline.
Why: Published with reviewed formulas, unit definitions, and UX controls.
Areas: engine, content, ui • Reviewer: Fidamen Standards Committee • Entry ID: bf91a1af6409