Convert Newton (°N) to Kelvin (K)
Conversion:
1 Newton (°N) = 276.18030303 Kelvin (K)
How to Convert Newton (°N) to Kelvin (K)
1 n = 276.18030303 k
1 k = -89.8095 n
Example: convert 15 Newton (°N) to Kelvin (K):
25 n = 348.90757576 k
Newton (°N) to Kelvin (K) Conversion Table
| Newton (°N) | Kelvin (K) |
|---|---|
| 0.01 n | 273.18030303 k |
| 0.1 n | 273.4530303 k |
| 1 n | 276.18030303 k |
| 2 n | 279.21060606 k |
| 3 n | 282.24090909 k |
| 5 n | 288.30151515 k |
| 10 n | 303.4530303 k |
| 20 n | 333.75606061 k |
| 50 n | 424.66515152 k |
| 100 n | 576.18030303 k |
| 1000 n | 3303.4530303 k |
Newton (°N)
Definition
Newton (°N) is a temperature scale where 0°N equals the freezing point of water and 33°N equals the boiling point of water.
History
The Newton scale was devised around 1700 by Sir Isaac Newton. It was one of the earliest attempts to create a standardized temperature scale and predates both Fahrenheit and Celsius.
Current use
The Newton temperature scale is not used in any modern practical application. It is studied in the history of science and thermometry as an early example of temperature standardization.
Kelvin (K)
Definition
The kelvin (K) is the SI base unit of temperature. Its zero point (0 K = −273.15°C) is absolute zero, the theoretical lowest possible temperature. Each kelvin increment equals one degree Celsius.
History
The kelvin was named after Lord Kelvin (William Thomson), who proposed the absolute temperature scale in 1848. It was adopted as the SI base unit of temperature in 1954, and its definition was revised in 2019 based on the Boltzmann constant.
Current use
Kelvins are the standard temperature unit in physics, chemistry, astronomy, and engineering. Color temperatures of light, cosmic background radiation, and thermodynamic calculations all use kelvins.