Specific Heat of Water = 4.1813 kJ/l/K
If starting temperature is say 10°C -
500 Litres * 4.1813 (100°C - 10°C) = 188158.5 kJ
188158.5kJ / 3kW = 62719.5 Seconds = 17.42 Hours
To calculate the time it takes to heat 450 liters of water with a 20-kilowatt element, you need to consider the heat capacity of water (4.18 J/g°C), the starting temperature of the water, and the desired ending temperature. With this information, you can calculate the total energy needed to heat the water and then divide it by the power of the element (20,000 watts) to find the time.
The time it takes for one liter of water to freeze can vary depending on factors such as the temperature of the surrounding environment, the initial temperature of the water, and the presence of any impurities. In general, under typical freezing conditions, it can take several hours for one liter of water to freeze completely.
A boiling flask is a vessel used in chemistry to heat liquids and create reactions. It has a round bottom and a long neck, which helps to prevent splashing and allows for efficient condensation of vapors. Boiling flasks are typically placed on a heating element or in a water bath to heat the liquid inside.
yes it is as long as the salt amount (gm/100 gm water) is well within the solubility which is quite high.
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 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).
To calculate the time it takes to heat 450 liters of water with a 20-kilowatt element, you need to consider the heat capacity of water (4.18 J/g°C), the starting temperature of the water, and the desired ending temperature. With this information, you can calculate the total energy needed to heat the water and then divide it by the power of the element (20,000 watts) to find the time.
This depends how many kilowatts are running through the element, but it can take anything from one to two hours.
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.
A heating element inside of the water pipes heat the water as it passes through. Each time the faucet is turned on, the element is turned on. When the water goes off, so does the element. Thus, water is heated only when needed rather than being held in a storage tank.
The time it takes for a hot water tank to heat up can vary depending on the size of the tank and the power of the heating element. On average, it can take anywhere from 30 minutes to 2 hours for a hot water tank to heat up completely.
A liter. This is rather like asking "how long is a 1 foot piece of string."
A liter. This is rather like asking "how long is a 1 foot piece of string."
The time it takes for a hot water tank to heat up and reach its desired temperature can vary depending on the size of the tank and the power of the heating element. On average, it can take anywhere from 1 to 2 hours for a hot water tank to heat up completely.
The specific heat of water determines how much energy is needed to heat water.
After drinking a liter of water, it typically takes about 20-30 minutes for the body to process and eliminate the excess fluid through urination.
If there is water in it you can heat it.