It takes about 4.18 Joules of energy to heat 1 gram of water by 1 degree Celsius. Therefore, to heat 1 liter (1000 grams) of water by 1 degree Celsius, it would require about 4180 Joules. Converting this to watts depends on the time taken to heat the water.
"Watt" is a rate of moving energy. Anynumber of watts can heat your liters,but the less watts you use, the longer the job will take.
54 Watts is the eqivianlient to removing 1 watt of heat
The power consumption of a heat lamination machine typically ranges from 300 watts to 1500 watts, depending on the size and capacity of the machine.
There are 10 deciliters of water in a liter of water.
Since the Coefficient of Performance (COP) is 2.5, for every 1 watt of electricity input, the heat pump produces 2.5 watts of heating or cooling output. Therefore, if 200 watts of electricity are used, the heat pump would produce 2.5 times 200, which equals 500 watts of equivalent heat output.
2.4705 watts/hour
"Watt" is a rate of moving energy. Anynumber of watts can heat your liters,but the less watts you use, the longer the job will take.
On average, a human body produces about 100 watts of heat.
It takes 1000 calories to heat 1 litre of water 1 degree C.
54 Watts is the eqivianlient to removing 1 watt of heat
It depends on the how many degrees you wish to change the water and the wattage of the heater. Obviously a 1500 watt heater will do it faster than a 1000 watt heater. You might want to begin by looking at the heat transfer formula: heat in joules equals mass times change in temperature times specific heat of the material (water in this case).
The power consumption of a heat lamination machine typically ranges from 300 watts to 1500 watts, depending on the size and capacity of the machine.
it depends what kind of bulb you have in it. how many watts??
"Watt" is a rate of moving energy. The more watts you use, the faster the waterwill heat up. The fewer watts you use, the slower it will heat. If you can affordthe time to wait, then any amount of power will do the job, no matter how small.
There are 10 deciliters of water in a liter of water.
0.29308323563892147 watts per btu there for 5200 btu = 1524.0328253223915 watts 1 watt=3.412Btu/hr 1 Btu=the amount of energy needed to heat 1 Lb of water 1 degree. A gallon of water weighs aprox. 8 Lbs.
Since the Coefficient of Performance (COP) is 2.5, for every 1 watt of electricity input, the heat pump produces 2.5 watts of heating or cooling output. Therefore, if 200 watts of electricity are used, the heat pump would produce 2.5 times 200, which equals 500 watts of equivalent heat output.