Rankine to Kelvin
1 Rankine equals 0.555556 Kelvin on this page.
Direct Answer
1 Rankine equals 0.555556 Kelvin
This conversion uses a scale-and-offset equation (K = °R * (5/9)).
For 20 Rankine, the converted value equals 11.111111 Kelvin.
Converter Calculator
0.555556 Kelvin (K)
SwitchExplanation
Use this page when you want a direct Rankine to Kelvin conversion. On this page, 1 Rankine equals 0.555556 Kelvin.
Historical temperature scales can differ by degree size, zero reference, or both, so this route uses the exact direction-specific equation K = °R x (5/9) instead of one shared factor.
Rankine (deg R): an absolute temperature scale that uses Fahrenheit-sized degrees but starts at absolute zero.
Kelvin (K): the SI base unit of thermodynamic temperature, anchored to absolute zero.
This route is useful when translating legacy thermodynamic or engineering references from Rankine into kelvin while preserving the same physical temperature.
This conversion uses an affine or exact linear historical-scale equation, so forward and reverse pages must keep their own dedicated formulas to stay numerically aligned.
Reference note
This Rankine to Kelvin page uses explicit historical scale equations (scale + offset), not a simple multiplier.
- Historical temperature scales are reconstructed from standard reference definitions.
- Forward and reverse directions use inverse formulas, so each direction has its own dedicated page.
Common Conversion Values
| Rankine (°R) | Kelvin (K) |
|---|---|
| -40 | -22.222222 |
| 0 | 0 |
| 20 | 11.111111 |
| 32 | 17.777778 |
| 80 | 44.444444 |
| 100 | 55.555556 |
| 273.15 | 151.75 |
| 491.67 | 273.15 |
Frequently Asked Questions
What is 1 Rankine in Kelvin?
1 Rankine equals 0.555556 Kelvin on this page.
What equation does this Rankine to Kelvin page use?
This page uses K = °R x (5/9), and the same equation drives the direct answer, calculator, table, and FAQ.
Is there a reverse page for Kelvin to Rankine?
Yes. The reverse direction has its own page at /historical-temperature-scales/kelvin-to-rankine/, where the inverse equation is used so the mirror route stays numerically aligned.