Great question except 1- What is the BTUH being used 2- What is the ambient temperature 3- Latient heat?
To calculate the time it would take to heat 200 gallons of water by 180 degrees using a 600 Btu water heater, you would first determine the total heat required: Calculate the heat energy required: Q = mcΔT, where Q is the heat energy, m is the mass of water, c is the specific heat of water, and ΔT is the temperature change. Then, calculate the time required to heat the water using the formula: Time = Q / power of the heater. These calculations will give you an estimate of the time needed to heat the water based on the specific heat capacity of water and the power of the heater.
That depends on the starting temperature of the cold water and the starting temperature of the hot water.
The final temperature would be approximately 54.2 degrees Celsius. This can be calculated using the principle of conservation of energy, where the heat lost by the hot water is equal to the heat gained by the cold water.
To heat 1 gram of water by 1 degree Celsius, it takes 4.18 joules. So, to heat water from, for example, 20 degrees to 100 degrees, you would need to calculate the total mass of water and apply the specific heat capacity to determine the total energy required.
Water boils at 100 degrees Celsius at standard atmospheric pressure. To reach 60 degrees, it would need to absorb heat from a source hotter than 60 degrees, such as a stove or microwave. This heat would increase the water's temperature until it reaches the boiling point of 100 degrees, at which point it would begin to boil and transition to steam.
The water would first heat up and reach its boiling point at 100 degrees Celsius. Once it reaches 100 degrees Celsius, it would start boiling and convert into steam at a constant temperature of 100 degrees Celsius until all the water has evaporated.
To calculate the BTUs required to heat 120 gallons of water to 210°F, first determine the temperature rise needed. Assuming the initial water temperature is around 60°F, you would need to raise it 150°F (210°F - 60°F). The BTU calculation is: [ \text{BTUs} = \text{gallons} \times \text{temperature rise} \times 8.34 ] So, [ \text{BTUs} = 120 \text{ gallons} \times 150°F \times 8.34 \approx 1,500,600 \text{ BTUs}. ] To heat this in 2 hours, you would need about 750,300 BTUs per hour.
A watt is a unit of power: what is required is probably the amount of energy - which is measured in joules.
It uses as many as you run through it, but who would want to heat hot water?
they are both equally hot, but the5 gallons of boiling water has more energy. If I had a choice of "boiling water torture" technique that would be used on me, I'd take the "5 drops" option. Still 100 degrees centigrade, but much less heat energy.
That depends on the initial temperature of the water and the heating method used. Typically, it would take a few minutes to heat water to 98.6 degrees Fahrenheit on a stovetop or with an electric kettle.
100 degrees celsius are equal to 212 degrees fahrenheit.