How to calculate boiling time of water?
Boiling time of water can be calculated with the volume, energy, efficiency, start and end temperature. Use our online calculator to find how long time needed to heat water. Boiling or Heating is the process of rapid vaporization of the liquid to reach its boiling point. Boiling point of water is considered to be 100 °C or 212 °F.
What is the average temperature of 50g of water at different temperatures?
since it is given that 50 gms water at 20 ⁰ C and 50 gms of water at 40⁰ C are mixed. Since the masses of the liquid at different temperatures are same, the answer is very easy and simple : average of 20⁰C and 40⁰C. that is: 30⁰C.
What is the boiling point of water?
Sign in. Boiling or Heating is the process of rapid vaporization of the liquid to reach its boiling point. Boiling point of water is considered to be 100 °C or 212 °F. Boiling time of water can be calculated with the volume, energy, efficiency, start and end temperature. Use our online calculator to find how long time needed to heat water.
What is the average temperature of the mixture at different temperatures?
Since the masses of the liquid at different temperatures are same, the answer is very easy and simple : average of 20⁰C and 40⁰C. that is: 30⁰C. Was this answer helpful? 1g steam at 100 oC is passed in an insulated vessel having 1g ice at 0 oC. Find the equilibrium temperature of the mixture. Neglect heat capacity of the vessel.
How much boiling water is required to raise the body temperature?
The amount of boiling water required to raise the temperature of 25.0 kg of water in the bath to body temperature is 4.80 kg. In this process, the heat lost by the boiling water is equal to the heat gained by the room-temperature water
Can You boil water to increase the temperature of a bath?
You fill your bathtub with 25 kg of room-temperature water (about 25 ∘C). You figure that you can boil water on the stove and pour it into the bath to raise the temperature. The idea here is that the heat given off by the boiling water will be equal to the heat absorbed by the room-temperature sample.