Yes, 50 degrees Celsius is equal to a temperature of 122 degrees Fahrenheit.
could water exist as a liquid if we don't have a atmosphere
Because every object has mass but the metric unit of measure is grams
melting point of chlorine is -101.6oC and boiling point is -34.6oC,SO that -65oC of chlorine is between them and it has a liquid.
Matter can exist in a solid, liquid, or gas as well as plasma.
No, chloride is an ion and does not exist in isolation. Chlorine is a gas.
The temperature at which all three phases of a substance can exist in equilibrium. This temperature occurs at only one pressure.
could water exist as a liquid if we don't have a atmosphere
could water exist as a liquid if we don't have a atmosphere
Oh yes, water still exists - but not in a liquid form.At standard pressure, water will freeze into ice at zero degree Celsius. But under pressure, the freezing temperature will be lower and the ice will melt. That is how ice skates work.
At this temperature sodium is a liquid.
Boiling point is a temperature at which the substance starts boiling. Every substance and material can exist in 3 forms: gas, liquid and material. and for example the boiling point of a water is 100 degree celsius.
Yes, but under atmospheric pressure it must be cooled to 90 Kelvin, about -183 Celsius.
Because every object has mass but the metric unit of measure is grams
Liquid water can exist at (and above) 100 degrees Celsius if the pressure is increased above one atmosphere (about 100 000 Pascals). The high pressure squeezes the molecules together, and does not allow them to separate into a gas. This forces it to remain as a liquid, despite the high temperature. Of course, water vapour (steam) can certainly exist above 100 degrees Celsius.If you're interested in how the two phases exist together, if you heat water to 374 degrees Celsius and increase the pressure to 218 atmospheres, the properties of the liquid and the vapour merge together to form only one "supercritical fluid" phase.
At around 0 degrees celsius, since that's the freezing point for water.
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 -215 degrees Celsius.
melting point of chlorine is -101.6oC and boiling point is -34.6oC,SO that -65oC of chlorine is between them and it has a liquid.