Oh, dude, so like, 900 watts is a unit of power, not temperature. It's like asking how many apples are in a gallon of milk. You need to know the specific heat capacity of the material being heated to convert watts to degrees Celsius. So, it's not a straightforward answer.
Since watt is a unit of power (how fast energy is transferred), you can do this with almost any amount of power - as little or as much as you want, depending on how fast you want to heat the water. The time it takes will depend on the initial temperature, the amount of water, and the power.
1540 watts
Watts Watts
Well, honey, watts measure power, while degrees measure temperature. So, there's no direct conversion between the two. It's like asking how many apples equal a mile - they just don't play in the same ballpark.
1 gallon of water is 4540 cc and 1 degree F is 0.555 degrees C, so raising 4540 cc of water by 0.555 degree C would take 4540x0.555 calories, or 2520 calories. Multiply by 4.2 to convert to joules which gives 10590 joules. Therefore the energy required is 10590 joules which is the same as 10590 watt-seconds. That could be done by 100 watts in 105.9 seconds, or 1000 watts in 10.59 seconds.
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.
Watts= rate of using energy Amps= current flow Think of it as a bucket of water with a hole in it. Watts is the amount of water leaking from the bucket (1 gallon) Amps is the size of the hole ( it took 3 minutes for that 1 gallon to leak out of the bucket)
"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.
it all depends on the amount of water you can usually get by with a 10 gallon heater
Well, the question your asking is basically impossible. It's like asking to convert a gallon of water into cans of pop. It is possible to convert the gallon of water into cans of water not soda. So you can convert dBm to watts, not dBi.
Well, the question your asking is basically impossible. It's like asking to convert a gallon of water into cans of pop. It is possible to convert the gallon of water into cans of water not soda. So you can convert dBm to watts, not dBi.
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.
Since watt is a unit of power (how fast energy is transferred), you can do this with almost any amount of power - as little or as much as you want, depending on how fast you want to heat the water. The time it takes will depend on the initial temperature, the amount of water, and the power.
The amount of energy required to convert water to steam depends on the specific heat of water, latent heat of vaporization, and the mass of water. With the given information, it is not possible to provide an accurate estimate of the wattage required for the process. The rate at which the energy is applied also plays a crucial role in determining the wattage needed for such a conversion.
The amount of energy required to freeze water depends on the initial temperature of the water and the desired final temperature (0°C for freezing water). To calculate the power in watts needed to freeze water, you would need to know the mass of water, its initial temperature, and the time over which you want to freeze it.
It takes 40000 watts on a 40 degree wash and a 30 degree wash takes 30000 watts of energy.