Temperature · Unit Converter

Convert Rømer to Gigakelvin

Convert degrees rømer to gigakelvins instantly. GK = (°Rø × 1.904762e-9) + 2.588643e-7 — use the live calculator, the exact formula, a reference-temperature table and worked examples. Also check the Gigakelvin to Rømer converter for the reverse conversion.

Written by Sunith Babu L, Ph.D., Lead Engineer Reviewed by Girish V Kulkarni Ph.D.
Temperature category 2 min read Published Last reviewed Updated

Units explained

Historical Scales

Rømer

What is a degree rømer?

The degree Rømer (°Rø) sets the freezing point of water at 7.5 °Rø and the boiling point at 60 °Rø; one degree Rømer equals exactly 40/21 of a kelvin (about 1.905 K).

Origin of the degree rømer

Created by Danish astronomer Ole Rømer — famous for making the first quantitative measurement of the speed of light — who set 0 °Rø at the temperature of a salt-ice brine and 60 °Rø at boiling water.

Where it is used

Of historical rather than practical importance: it is remembered as the direct ancestor of the Fahrenheit scale and appears mainly in the history of science and in metrology coursework.

When and where it was developed

Devised by Ole Rømer in Copenhagen, Denmark, in 1701; Daniel Fahrenheit visited Rømer in 1708 and adapted this scale into his own.

SI Prefixed Kelvin

Gigakelvin

What is a gigakelvin?

One gigakelvin (GK) is one billion kelvins (10⁹ K).

Origin of the gigakelvin

Formed with the SI prefix 'giga-' (from Greek 'gigas', giant) applied to the kelvin base unit.

Where it is used

Extreme astrophysics — collapsing supernova cores reach roughly 100 GK, and Big Bang nucleosynthesis took place at about 1 GK.

When and where it was developed

The giga- prefix was adopted by the CGPM in 1960 as part of the SI.

Rømer to Gigakelvin conversion formula

The exact relationship between degrees rømer and gigakelvins:

GK = (°Rø × 1.904762e-9) + 2.588643e-7
°Rø = (GK × 5.25e+8) − 135.90375

To convert degrees rømer to gigakelvins, multiply the value by 1.904762e-9, then add 2.588643e-7. To reverse, multiply the value by 5.25e+8, then subtract 135.90375.

Reference anchors: water freezes at 7.5 °Rø = 2.7315e-7 GK and boils at 60 °Rø = 3.7315e-7 GK (at standard atmospheric pressure).

How to use this converter

Type a value into the calculator. The result in gigakelvins updates as you type. Tap a quick value, copy the result with one click, or use the swap arrow to jump straight to the Gigakelvin to Rømer converter for the reverse direction.

Step-by-step: convert degrees rømer to gigakelvins

  1. Write down the temperature in degrees rømer (°Rø).
  2. Multiply the value by 1.904762e-9, then add 2.588643e-7.
  3. The result is the same temperature expressed in gigakelvins (GK).
  4. To reverse, multiply the value by 5.25e+8, then subtract 135.90375 — or open the Gigakelvin to Rømer converter.

Worked examples

Example 1 — Convert 26.925 °Rø to GK (human body temperature):
(26.925 × 1.904762e-9) + 2.588643e-7 = 3.1015e-7 GK

Example 2 — Convert 60 °Rø to GK (the boiling point of water):
(60 × 1.904762e-9) + 2.588643e-7 = 3.7315e-7 GK

Rømer to Gigakelvin conversion table

Physically meaningful reference temperatures, from absolute zero to the surface of the Sun, converted from degrees rømer to gigakelvins:

Rømer [°Rø]Gigakelvin [GK]Reference point
-135.903750Absolute zero
-13.52.3315e-7Where Celsius and Fahrenheit coincide (−40°)
-1.83333333332.553722e-7Zero Fahrenheit (0 °F)
7.52.7315e-7Water freezes (0 °C / 32 °F)
7.505252.7316e-7Triple point of water
12.752.8315e-7Cool day (10 °C / 50 °F)
182.9315e-7Room temperature (20 °C / 68 °F)
20.6252.9815e-7Standard laboratory temperature (25 °C)
23.253.0315e-7Hot day (30 °C / 86 °F)
26.9253.1015e-7Human body temperature (37 °C / 98.6 °F)
28.53.1315e-7Heat-wave day (40 °C / 104 °F)
33.753.2315e-7Hot tap water (50 °C / 122 °F)
603.7315e-7Water boils (100 °C / 212 °F)
1024.5315e-7Moderate baking oven (180 °C / 356 °F)
2897.546255.778e-6Surface of the Sun (≈5,505 °C)

Frequently asked questions

What is 26.925 °Rø in GK?
26.925 °Rø equals 3.1015e-7 GK — normal human body temperature.
How do I convert degrees rømer to gigakelvins?
Use the formula GK = (°Rø × 1.904762e-9) + 2.588643e-7: multiply the value by 1.904762e-9, then add 2.588643e-7.
How do I convert gigakelvins back to degrees rømer?
Apply the reverse formula °Rø = (GK × 5.25e+8) − 135.90375 — multiply the value by 5.25e+8, then subtract 135.90375 — or use the Gigakelvin to Rømer converter.
At what temperature do the Rømer and Gigakelvin scales read the same number?
Both scales show the same number at 2.588643e-7: 2.588643e-7 °Rø = 2.588643e-7 GK. Set GK = °Rø in the conversion formula and solve to verify it.
Can a temperature be below absolute zero?
No. Absolute zero (0 K = −273.15 °C = −459.67 °F) is the floor of the thermodynamic temperature scale. The calculator flags any input that would fall below it.

Convert Rømer to other temperature units

Show all Rømer conversions
Modern Standard Scales (4 units)
Rømer to Fahrenheit (°F) Rømer to Rankine (°R) Rømer to Kelvin (K) Rømer to Celsius (°C)
Historical Scales (3 units)
Rømer to Delisle (°De) Rømer to Réaumur (°Ré) Rømer to Newton (°N)
Scientific & Fixed-Point (3 units)
Rømer to Triple Point of Water (TPW) Rømer to Electronvolt (eV) Rømer to Planck Temperature (T_P)
SI Prefixed Kelvin (5 units)
Rømer to Nanokelvin (nK) Rømer to Microkelvin (µK) Rømer to Millikelvin (mK) Rømer to Megakelvin (MK) Rømer to Gigakelvin (GK)

Sources & references

Conversion relationship (GK = (°Rø × 1.904762e-9) + 2.588643e-7) verified against the following authoritative sources:

Results are provided for general reference. Verify critical measurements against an authoritative standard.