388.15K
273 + deg. celsius = deg. Kelvin273 - 34 = 239
(It has a melting point of-150.7 degrees Fahrenheit and a boiling of -29.27 degrees Fahrenheit.) Chlorine Melting point is 172 Kelvin (which is also its freezing point) Chlorine's boiling point is 239 Kelvin (which is also its condensing point) For reference, water freezes at 273 Kelvin and boils at 373 Kelvin. This means that chlorine will remain a gas until quite cold temperature of about negative 34 degrees centigrade. Those numbers above are valid under atmosphere pressure 14.7 PSI As soon as pressure changes, especially when Cl2 is being transferred through piping, boiling point ( condensing point) will also go higher. For example; Cl2 is in gas form at 25 PSI if temperature is 24F (-4C , or 268K ) If you increase the pressure in your pipe up to 65 PSI for transferring to further points then CL2 gas condenses (liquiifies) in the pipe. Reason is condensing temperature at 65 PSI is 54F (12C , or 285K)
-34ºC
Each isotope of plutonium has its own decay scheme. Plutonium-239 is the most widely used isotope, and it undergoes alpha decay into uranium-235 with a half-life of 2.41 x 104 years (24,100 years). A link is provided to the Wikipedia article on plutonium.
For the isotope plutonium-239: cca. 2,52.1021atoms.
239 K = -34 ºC
115 degrees Celsius = 239 degrees Fahrenheit
To convert from degrees Celsius to degrees Fahrenheit, multiply the number by 9, divide by 5, and add 32. In this instance, -11.5 degrees Celsius is equal to -11.5 x 9 = -103.5/5 = -20.7 + 32 = 11.3. Therefore, -11.5 degrees Celsius is equal to 11.3 degrees Fahrenheit.
273 + deg. celsius = deg. Kelvin273 - 34 = 239
In increasing order, LDPE has the lowest melting point at 221 to 239 degrees Fahrenheit. It is followed by HDPE at 266 degrees Fahrenheit and PPMA at 320 degrees Fahrenheit.
Kelvin is the SI unit for temperature. Celsius is usually used in metric systems. 0 degree celsius is 273.15 Kelvin. Kelvin increases equally with celsius. So to convert celsius to kelvin, we just add 273.15 to celsius. The answer in Kelvin is 239.15
The answer is 239.15 K (approx.). The Kelvin scale starts at absolute zero and is used in scientific laboratories. Celsius is for general use and set 0 and 100 as melting and boiling point of water respectively. To convert from C to K, add 273.15 to C.
239 Fahrenheit is 115 Celsius.
Start by taking the number in Fahrenheit and subtracting 32. Then divide the number by 9, and then multiply it by 5. This is how you convert Fahrenheit to Celsius or use the equation C = (F - 32) × 5/9In this case, the answer is about 47.22 degrees Celsius.
(It has a melting point of-150.7 degrees Fahrenheit and a boiling of -29.27 degrees Fahrenheit.) Chlorine Melting point is 172 Kelvin (which is also its freezing point) Chlorine's boiling point is 239 Kelvin (which is also its condensing point) For reference, water freezes at 273 Kelvin and boils at 373 Kelvin. This means that chlorine will remain a gas until quite cold temperature of about negative 34 degrees centigrade. Those numbers above are valid under atmosphere pressure 14.7 PSI As soon as pressure changes, especially when Cl2 is being transferred through piping, boiling point ( condensing point) will also go higher. For example; Cl2 is in gas form at 25 PSI if temperature is 24F (-4C , or 268K ) If you increase the pressure in your pipe up to 65 PSI for transferring to further points then CL2 gas condenses (liquiifies) in the pipe. Reason is condensing temperature at 65 PSI is 54F (12C , or 285K)
The answer is -34.15 C (approx.). The Kelvin scale starts at absolute zero and is used in scientific laboratories. Celsius is for general use and set 0 and 100 as melting and boiling point of water respectively. To convert from K to C, subtract 273.15 from K.
The Highest temperature is -38 degrees Celsius