it depends on your altitude but under normal circumstances 212 Degrees Fahrenheit.
Boiling water involves converting liquid water to steam by adding heat energy. The heat energy increases the temperature of the water until it reaches its boiling point, at which point the water vaporizes into steam.
The relationship between boiling point and pressure is that as pressure increases, the boiling point of a substance also increases. This is because higher pressure makes it harder for molecules to escape into the gas phase, requiring more energy to reach the boiling point. Conversely, lower pressure decreases the boiling point as it allows molecules to escape more easily.
You have to put energy IN to keep it boiling, so the water molecules gain energy (from the heating source): the answer is 'GAIN energy' and NOT (as wrongly stated before) 'LOSE' it.water only looses energy when it turns into a solid.and adds energy when turning into a gas
Boiling water typically uses thermal energy, which is the energy associated with heat. When water reaches its boiling point, the thermal energy added to the water causes the water molecules to gain enough kinetic energy to break free from their liquid state and change into vapor.
The higher the density of a liquid, the higher its boiling point tends to be. This is because denser liquids generally have stronger intermolecular forces, which require more energy to overcome and reach the boiling point. Conversely, less dense liquids with weaker intermolecular forces will have lower boiling points.
Oh, dude, the boiling point of a 16 oz Monster Energy drink is around 212°F (100°C) because it's mostly water. But who would want to boil that delicious concoction anyway? Just chug it cold and embrace the caffeine rush, man.
The energy is used to maintain the temperature at the boiling point.
A liquid with a lower boiling point will boil quicker because it requires less energy to reach its boiling point compared to a liquid with a higher boiling point.
The energy is used to maintain the temperature at the boiling point.
Boiling water involves converting liquid water to steam by adding heat energy. The heat energy increases the temperature of the water until it reaches its boiling point, at which point the water vaporizes into steam.
Changing water pressure can affect the boiling point because it alters the equilibrium between liquid and vapor phases. Increasing pressure raises the boiling point, as more energy is needed to overcome the higher pressure. Decreasing pressure lowers the boiling point, as it requires less energy to vaporize the liquid.
Pressure affects the boiling point of a substance by either raising or lowering it. When pressure is increased, the boiling point of a substance also increases because it requires more energy to overcome the higher pressure. Conversely, when pressure is decreased, the boiling point of a substance decreases because less energy is needed to overcome the lower pressure.
Increasing pressure raises the boiling point of gold. Gold has a high boiling point, and as pressure increases, the intermolecular forces between gold atoms become stronger, requiring more energy to overcome them and thus raising the boiling point.
The heat of vaporization is the amount of energy needed to change a substance from a liquid to a gas at its boiling point. The higher the heat of vaporization, the higher the boiling point of the substance.
When it reaches its boiling point.
Thermal Energy
The boiling point of heavy water is 101.4 degrees Celsius, which is slightly higher than the boiling point of regular water, which is 100 degrees Celsius. This difference is due to the heavier isotopes of hydrogen in heavy water, which require more energy to reach the boiling point.