I think it is 273.15
If you are used to using the Celsius scale, just add 273.15 to the Celsius number and you get Kelvin.
2006-10-05 02:48:26
·
answer #1
·
answered by Anonymous
·
0⤊
0⤋
Since the Fahrenheit and Celsius temperature scales were until recently both defined with respect to the freezing and boiling points of water at Standard Temperature and Pressure, the freezing point of pure water ought to be exactly 0° C or 32° F. At first, the Celsius scale was defined that way, while the Fahrenheit scale also came to be defined as having water freeze at 32° and boil at 212°.
However, nowadays units are defined in terms of SI quantities. A Kelvin is defined as 1/273.16 of the "thermodynamic temperature" of the triple point of water. 273.16 K is also defined as 0.01° C, and a Celsius degree is defined to be equal to a Kelvin. .
So, to answer your question, under certain conditions the freezing and boiling points of water will not be exactly 0° or 100° C. But they are close enough that we usually check our thermometers that way!
2006-10-05 02:53:52
·
answer #2
·
answered by . . * h o n e y * . . 3
·
1⤊
0⤋
the freeing point of water in kelvin is 0
2006-10-05 02:48:13
·
answer #3
·
answered by Anonymous
·
0⤊
1⤋
0 degrees celsius
32 degrees farenheit
273.15 degrees kelvin
2006-10-05 02:49:41
·
answer #4
·
answered by LSF 3
·
0⤊
0⤋
Freezing point of water is:
273.15 K
at see level and 1 atm.
2006-10-05 08:04:43
·
answer #5
·
answered by latif_1950 3
·
0⤊
0⤋
273 K
2006-10-05 02:54:41
·
answer #6
·
answered by kyuketsuki084 3
·
0⤊
0⤋
the freezing point of water is 32 degrees
2006-10-05 02:51:15
·
answer #7
·
answered by teddy j 1
·
0⤊
0⤋
273
2006-10-05 02:53:27
·
answer #8
·
answered by iRock 5
·
0⤊
0⤋
0 C
32 F
273.15 K
2006-10-05 02:50:01
·
answer #9
·
answered by Anonymous
·
0⤊
0⤋
0 degrees c
2006-10-05 02:57:34
·
answer #10
·
answered by Anonymous
·
0⤊
0⤋