At 30 degrees Celsius, water is in a liquid phase.
99 degrees Fahrenheit is equivalent to 37.2 degrees Celsius.
In the liquid phase, it is 4o C. seeing how water only expands as it becomes ice, i think 0 degrees celcius is the densest
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.
Water is in a gaseous phase at 400 Kelvin. At this temperature, the water molecules have enough energy to overcome the intermolecular forces holding them together in liquid form, causing them to evaporate into a gas.
At 30 degrees Celsius, water is in a liquid phase.
At -20 degrees Celsius, water is in the solid phase and is frozen.
100 degrees Celsius is colder than 99 degrees Fahrenheit. 100 degrees Celsius is the boiling point of water, while 99 degrees Fahrenheit is closer to body temperature.
the water temperature ranges from 10 degrees celsius to 99 degrees celsius
Water
Water is in the gas phase at 150 degrees Celsius, known as steam or water vapor.
Water is in the liquid phase at 1 ATM pressure and 150 degrees Celsius. At this temperature and pressure, water exists as a liquid.
Temperature does have an effect on water's phase. When the temperature of water is below 0 degrees Celsius, it freezes into ice. When the temperature is between 0 and 100 degrees Celsius, it remains in liquid form. Above 100 degrees Celsius, it vaporizes into steam.
At -64 0C water is in a solid phase (called ice).
That depends upon the air pressure around the water. At one atmosphere, the average air pressure at sea level on Earth, it would be a gas.
Gaseous. If that is 150 degrees C, that would be steam.
phase shift in integrator is 180 degrees and phase shift in differentiator is 0 degrees