Want this question answered?
468ml
Temperatures in the Antarctic interior get down to -70 degrees Celsius during the winter months and -25 degrees Celsius in the warmer months.The annual average high is -45 degrees Celsius and the annual average low is -51 degrees Celsius.In winter, the temperature remains steady at around −65 °C (−85 °F).
Water does not get hotter than 100 degrees because of a heating curve. During a phase change (in this case vaporization) the temperature remains the same. Once the phase change is complete the temperature will continue to rise but the water will have been completely evaporated. So no, water can not be heated to more than 100 degrees Celsius.
Since 0 degrees Celsius equals 273 degrees Kelvin, then air that is twice as hot would be equal to 546 degrees Kelvin, which when converted back to Celsius is equal to 273 degrees Celsius. The natural urge is to double the Celsius temperature, let's say it was 5 degrees Celsius, then you'd probably want to double it to 10 degrees Celsius, however, that isn't correct. True temperature is measured in Kelvins, so you must convert to Kelvin to find out the true temperature conversion. Hope this answers the question.
Depending on the media agar solidifies at 32 to 40 degrees Celsius. It remains firm up to about 65 degree Celsius.
It just remains as water. The freezing point of water is 0 degrees Celsius, while the freezing point is 100 degrees Celsius. Therefore at 20 degrees Celsius, there is no change in state and it just remains as water.
468ml
Naphthalene, which is found in mothballs, when heated sublimes (which means it changes from a solid directly into a gaseous state without going through the liquid state).
136.73 mL
If you graph the change in temperature of water as it changes from a liquid to a solid, the line drops pretty quickly until the phase change starts at 0 degrees Celsius. The line then remains flat at 0 degrees Celsius and doesn't change until it is completely a solid. Then the temperature of the ice can continue to drop below zero.
Alcohol will boil at 85 degrees Celsius. Water boils at 100 degrees Celsius. These things always boil at the same temperature, and will continue to boil as long as liquid remains.
Temperatures in the Antarctic interior get down to -70 degrees Celsius during the winter months and -25 degrees Celsius in the warmer months.The annual average high is -45 degrees Celsius and the annual average low is -51 degrees Celsius.In winter, the temperature remains steady at around −65 °C (−85 °F).
Usually it remains constant. For instance when you boil water and it turns into steam, the temperature of the boiling water remains at 100 Degrees Celsius throughout the process.
Water does not get hotter than 100 degrees because of a heating curve. During a phase change (in this case vaporization) the temperature remains the same. Once the phase change is complete the temperature will continue to rise but the water will have been completely evaporated. So no, water can not be heated to more than 100 degrees Celsius.
Since 0 degrees Celsius equals 273 degrees Kelvin, then air that is twice as hot would be equal to 546 degrees Kelvin, which when converted back to Celsius is equal to 273 degrees Celsius. The natural urge is to double the Celsius temperature, let's say it was 5 degrees Celsius, then you'd probably want to double it to 10 degrees Celsius, however, that isn't correct. True temperature is measured in Kelvins, so you must convert to Kelvin to find out the true temperature conversion. Hope this answers the question.
Depending on the media agar solidifies at 32 to 40 degrees Celsius. It remains firm up to about 65 degree Celsius.
The minimum temperature in kolkata mostly remains 8 r 7 degrees Celsius ...the recorded minimum temperature in kolkata was 4.8 or 5 degrees in 1905 .