Yes. At 0 °C, water will coexist with ice. This is the commonly-quoted freezing temperature of water, but the EXACT freezing temperature depends on pressure, on the isotope mix of the water, and in general, on its purity. For example, adding some salt makes it possible to lower the freezing temperature.
Yes, water can exist as a liquid at 50 degrees Celsius. The boiling point of water is 100 degrees Celsius, so at 50 degrees Celsius, the water is below its boiling point and remains in a liquid state.
Yes. As long as the pressure is below atmospheric pressure.
The boiling point of water is 100 degrees Celsius.
Water would be found in a gaseous state at 130 degrees Celsius, as this temperature exceeds the boiling point of water (100 degrees Celsius at standard pressure). At this temperature, water molecules have enough kinetic energy to overcome intermolecular forces and transition from liquid to gas. Therefore, water would exist as steam or water vapor at 130 degrees Celsius.
At 30 degrees Celsius, water, ethanol, and acetone are common examples of liquids. Each of these substances have a melting point below 30 degrees Celsius, allowing them to exist in liquid form at that temperature.
Yes, water can exist as a liquid at 50 degrees Celsius. The boiling point of water is 100 degrees Celsius, so at 50 degrees Celsius, the water is below its boiling point and remains in a liquid state.
Water at 50 degrees Celsius is in the liquid state. At this temperature, water is above its freezing point (0 degrees Celsius) and below its boiling point (100 degrees Celsius), allowing it to exist as a liquid.
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.
Liquid water has a temperature range of 0 to 100 degrees Celsius. At 0 degrees Celsius, water freezes into ice, and at 100 degrees Celsius, water boils into steam.
Mercury is the element that is a liquid at 0 degrees Celsius.
yes, you can have water at 0 degrees CELSIUS.
At 120 degrees Celsius, under typical conditions, water is in the form of steam (water vapor) due to its boiling point being 100 degrees Celsius at standard atmospheric pressure. Any liquid water would have already evaporated into steam at this temperature.
374 degrees Celsius
Water is in liquid state at 25 degrees Celsius. This is the temperature at which water transitions from a solid (ice) to a liquid state.
If the liquid is water then it is 10 degrees above freezing point which is 0 degrees Celsius
Water and ice can coexist at 0 degrees Celsius because this is the temperature at which water transitions between its solid (ice) and liquid states. At 0 degrees Celsius, the rate of melting ice is equal to the rate of freezing liquid water, resulting in a dynamic equilibrium where both forms can exist simultaneously.
At temperatures above 100 degrees Celsius (212 degrees Fahrenheit), liquid water will boil and turn into water vapor. If it is too hot for liquid water to exist, the water will either evaporate or turn into steam, depending on the specific temperature.