Convert Kilopascals to Millimeters of Mercury - Pressure Converter
This converter converts a single pressure value from kilopascals (kPa) to millimeters of mercury (mmHg). The conversion uses the internationally accepted relationship derived from the standard atmosphere definition (1 atm = 101325 Pa and 1 atm = 760 mmHg). Use this tool for quick conversions, engineering checks, and reference calculations.
For measurement and compliance workflows, note that mmHg (millimeter of mercury) and the torr are closely related but historically distinct. For high-accuracy or legally regulated measurements, rely on calibrated instruments and traceable standards; see the citations for relevant guidance from national and standards organizations.
Governance
Record 2c64a58dc275 • Reviewed by Fidamen Standards Committee
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Methodology
The converter applies the fixed mathematical relationship between pascals and mmHg based on the standard atmosphere definition: 1 mmHg (torr) = 101325 Pa / 760. The tool converts kPa to Pa (1 kPa = 1000 Pa) and then divides by the mmHg-in-pascals constant.
This implementation uses the exact torr-based definition for reproducibility. In practice, a physical mmHg reading from a mercury manometer can differ slightly due to local gravity, mercury density, temperature, and instrument zero; those environmental and instrument error sources are outside the numerical conversion and should be addressed with calibration and uncertainty analysis.
For regulated measurements and calibration, follow traceability to national metrology institutes and accredited laboratories under standards such as NIST guidance, ISO/IEC 17025 for calibration labs, and relevant IEEE instrumentation standards. For workplace safety related to mercury, consult OSHA guidance.
Worked examples
Example 1: 100 kPa → mmHg: 100 × 7.500615613 ≈ 750.0616 mmHg.
Example 2: 101.325 kPa → mmHg: 101.325 × 7.500615613 ≈ 760.0000 mmHg (by definition of the standard atmosphere).
F.A.Q.
Is mmHg the same as torr?
Torr is defined as exactly 1/760 of a standard atmosphere (1 atm = 101325 Pa), so the torr-based conversion used here is exact. Historically mmHg referred to a physical column of mercury and could vary with local gravity and mercury properties; in modern conversion contexts mmHg is commonly treated as equivalent to the torr for numerical conversions, with any small physical differences handled via calibration or correction.
How accurate is the numerical conversion?
The mathematical conversion uses the exact standard-atmosphere-based definition and is as accurate as the constants used. Typical numerical precision is many significant digits; however, measurement uncertainty when using instruments (manometers, sensors) will usually dominate. For critical or legal measurements, include instrument uncertainty and use calibration traceable to recognized standards (for example, NIST and ISO/IEC 17025-accredited labs).
Can I use this converter for blood pressure readings?
Yes for unit conversion only. Clinical blood pressure is reported in mmHg; converting a numerical value from kPa to mmHg is straightforward. For clinical use, follow medical device calibration requirements, rounding practices, and relevant clinical standards; consult regulators and device manufacturers for diagnostic accuracy requirements.
Are there safety or regulatory concerns with mmHg references?
If you are working with mercury manometers or mercury-containing devices, follow workplace safety and hazardous-substance regulations. OSHA and local regulations cover mercury handling, exposure limits, and disposal. Prefer modern non-mercury instruments where safety or regulatory compliance is a concern.
When should I prefer torr vs an empirically measured mmHg?
Use the torr-based numeric conversion for calculations and software that require deterministic reproducible results. Use empirical mmHg measurements from a mercury manometer for direct physical measurement but account for local gravity, temperature, and instrument-specific corrections when high accuracy is required.
Sources & citations
- NIST — Reference on Units, National Institute of Standards and Technology — https://physics.nist.gov/cuu/Units/
- ISO — International Organization for Standardization — https://www.iso.org/
- IEEE Standards Association — https://standards.ieee.org/
- OSHA — Occupational Safety and Health Administration — https://www.osha.gov/
- ISO 80000-4:2019 — Mechanics — https://www.iso.org/standard/64975.html
- 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
Versioning & Change Control
Audit record (versions, QA runs, reviewer sign-off, and evidence).
Record ID: 2c64a58dc275What changed (latest)
v1.0.0 • 2025-11-30 • 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 • 2025-11-30 • 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 30, 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 • 2025-11-30 • 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: e32caf6609e6