Gallium has a boiling point of 93°ish F. But Mercury is way lower than that. It's a liquid at room temperature.
It will raise the boiling point. This why, for example, car radiators have a pressure cap. This causes a rise in the boiling point of the water and it is less likely to boil.
The boiling point of pure water is lower than the boiling point of a water-salt solution, so it takes takes longer to heat the water-salt solution to its boiling point.
A scientific test you do on water similar to a chemical test
As pressure decreases, the boiling point of water will also decrease. Backpackers camping in the high mountains are familiar with the phenomena when they get water boiling - and find that it is still only lukewarm because the atmospheric pressure at their high altitude is so low.
Somehow your units seem odd.Temperature and quantity of potassium seems strange.Potassium is a metal, somewhat like Sodium. It has a melting point of 63.25°C, and a boiling point of 760°C. Like Sodium, pure Potassium Metal will burn in contact with water.However, it is often found in an ionic compound for example Potassium Chloride (KCl) which is far less reactive.KCl salt is soluble in water, and will decrease the melting point and increase the boiling point of the water.
It will raise the boiling point. This why, for example, car radiators have a pressure cap. This causes a rise in the boiling point of the water and it is less likely to boil.
The boiling point of pure water is lower than the boiling point of a water-salt solution, so it takes takes longer to heat the water-salt solution to its boiling point.
Less than 100 degrees
The boiling point is lower because the air is thinner, and there is less pressure acting on the water. This means that you have to add less energy to counteract the forces holding the water in liquid form.
Yes it is. From the definition of steam distillation we can know that the components of the distillation are immiscible and one of the components is water. Since water's boiling point is 100'C, boiling point of the mixture must be less than that.
Yes. The boiling point of water is lower at higher altitudes because there is less atmospheric pressure.
A scientific test you do on water similar to a chemical test
as you go higher above sea level, pressure decreases. Due to the decrease in pressure, the temperature needed for water to boil is less than it is than it would be at sea level. Thus, it would take less heat energy for the bonds to break and become a gas than it would in an environment with more pressure.
Gasoline has a less boiling point (72 degree Celsius) While water has a bigger boiling point (100 degree Celsius)
Answer:The boiling point of water at sea level is 100oC (212oF). Water boils when the pressure of the vapor is equal to the surrounding pressure. Since atmospheric pressure is reduced at higher altitudes it takes less energy (and therefore less heat) to boil water. So to put it simply the higher your altitude the lower the boiling point.
The temperature of boiling water stays the same. At sea level, that is 100 degrees Celsius or 212 degrees Fahrenheit. At higher elevations, say on a tall mountain, the boiling point of water is less and less, the higher you go.
More or less of a melting and boiling point than what? Water? Iron? Hydrogen? More information needs to be provided before this can be answered.