100 litres at 60 degrees Celsius = 1 hour (2kw element)
150 litres at 60 degrees Celsius = 1.5 hours (3kw element)
200 litres at 60 degrees Celsius = 2 hours (4kw element)
250 litres at 60 degrees Celsius = 2.5 hours (4kw element)
provided all are using 220 volts of domestic electricity
Temperature is the measure of how much heat energy something has. Just like distance is the measure of how far apart two points are. 0 degrees centigrade for example is the point at which water freezes whereas 100 degrees is the boiling point of water. So a warm bath tub may have a lower temperature than a candle flame, but it has more heat energy stored in it overall because it would take a lot of candles to heat up a bath tub.
How long will it t take a quarter to rust in fresh water
because the object needs also to heat up
The more water in the kettle, the longer it will take to reach boiling point. This is why it is wasteful in energy to boil a full kettle if you only want to brew a small cup of tea.
It takes a while to purify water
It depends on the volume of water present, and the heat of the water to start with.
mine took 36 hours - the water fill was about 55 degrees
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.
It depends on what the initial temperature is and the amount of heat applied.
depends on the wattage of the elements along with the temp of the cold water but i would guess an hour or two
The time it takes for water to start boiling depends on factors like the heat source, the amount of water, and the container. Water boils at 100 degrees Celsius (212 degrees Fahrenheit) at sea level, where the atmospheric pressure is around 1 atmosphere.
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.
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.
1370 calories
To raise the temperature of one cc of water requires i calorie of heat . you did not specify the volume.
Great question except 1- What is the BTUH being used 2- What is the ambient temperature 3- Latient heat?
The time it takes to heat water to a specific temperature depends on factors such as the initial temperature, the heat source, and the amount of water being heated. To get an estimate of the time needed, you could use a formula that takes into account these variables, such as the specific heat capacity of water and the power of your heating element.