Actually, kettles come in different sizes. A tea kettle would usually have a capacity of a few liters.
Kettles are not all the same size, so the answer depends on the volume of the kettle.
alot! 1,234,345.
If you fill it to four feet deep, the total is 10,408 gallons of water.
4,892
10,000 dollars
15000 gallons
It depends on the size of the kettle.
750ml
That will depend on the size of the kettle. They come in different sizes.
The amount of electricity it would take to boil a kettle would be phenomenal, regardless of whether the kettle is made from metal or plastic. I suggest instead you try boiling the water inside the kettle first.
Assuming you got that number off an electric kettle it is because that is how much power is needed to heat the water. The number of watts actually measure how much energy the kettle is designed to use. Water is very hard to heat compared to other liquids(or to cool). So it takes a lot of watts to get the kettle to heat the water.
It would require 74,530 US gallons of water.
9,510.19 Gallons
Until now, conveniently measuring the correct amount of water to be boiled in your kettle has not been easy. It is estimated that, on average, we boil twice the volume of water needed every time. Which means twice as much energy, twice as much time. An eco kettle allows you to boil just the right amount of water every time.
The kettle was invented to boil water, first ones were placed directly onto a stove top (much like a pot); later electric ones use an element to heat the water
The amount of water it would take to fill a lake varies. It depends on the size of the lake and whether the soil is dry or not.
drink water. it helps.
The total energy in the kettle system will be 2000J. However, the energy will be distributed different ways. Some will go into heating the water, some will go into changing the water into steam (which takes a LOT of energy), and some will be lost as radiant heat energy. The specifics depend on the kettle itself, and how much water you have in the kettle.Changing one milliliter of water by one degree requires 4.186 J of energy, but to convert it into steam requires 2259.36 J per ml