The boiling point is the temperature at which a liquid will change into a gas.
This happens when the molecules have enough energy to break the bonds holding them in close proximity. Since water molecules have a stronger attraction to each other than ethane molecules have for each other, water needs to be heated to a higher temperature to break these bonds.
The boiling point of Carbonated water is 105°C because of the carbon dioxide gas it contains.
The presence of a non volatile solute in the solution decreases the vapour pressure of the solvent.So, when a spoonful of salt is added to boiling water, the temperature at which the water in the solution state boils is increased.
The boiling point of tap water is typically 100 degrees Celsius (212 degrees Fahrenheit) at sea level. However, this can vary slightly depending on factors such as altitude and impurities in the water.
When pressure greater than atmospheric pressure is applied to pure water or a solution, the boiling point of the water/solution will increase. This means that the liquid will need to reach a higher temperature before it boils. Conversely, if the pressure decreases below atmospheric pressure, the boiling point will decrease, requiring a lower temperature for boiling to occur.
average kinetic energy of molecules is roughly equivilant to temperature. as water reaches boiling point the temperature stops increasing. Instead the energy your putting in makes a phase change from liquid to gas.
No, LiCl (Lithium chloride) will not have a higher boiling point than water. The boiling point of water is 100 degrees Celsius, whereas the boiling point of LiCl is significantly higher at 1382 degrees Celsius.
The boiling point of water can be affected by changes in atmospheric pressure. At higher altitudes where the atmospheric pressure is lower, the boiling point of water is lower. Conversely, at lower altitudes with higher atmospheric pressure, the boiling point of water is higher.
Water has a higher boiling point that alcohol (ethanol). The main reason for this is because water has stronger intermolecular forces holding the molecules together.
Sea water has higher boiling point,as it contains sodium chloride
Chloroform has a normal boiling point of 61.2 degrees Celsius, which is lower than the boiling point of water. This means that chloroform will have a higher vapor pressure than water at 100 degrees Celsius, where water is at its boiling point but chloroform is not.
Sodium chloride has a higher boiling point.
Air pressure also affects the boiling point of water. The higher the air pressure, the higher the boiling point.
Ocean water has a higher boiling point than tap water because it contains dissolved minerals and salts, such as sodium and chloride. These impurities increase the boiling point of the water by elevating the boiling point of the solution as a whole.
It depends where you are in Nevada. The boiling point will be lower in areas at a higher elevation.
The higher the pressure being exerted on the water, the lower the boiling point becomes. Yes the boiling point is affected in a pressurized system. If you put water in a sealed container and kept raising the pressure it will eventually reach it's boiling point without the need of adding heat.
The boiling point of a saltwater solution is higher than that of normal tap water because the presence of salt raises the boiling point. Salt molecules disrupt the formation of water vapor molecules during boiling, requiring more energy to break the bonds and reach the boiling point.
physiological answers tell us that In neurology water may be boiling at a lower substantial rate then non water water.