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A typical cup holds around 250 ml of water and, given that room temperature is around 21 C, I want to raise it 79 degrees to boiling point. So, the total energy required to heat this cup of tea/coffee is: 4.184 * 250 * 79 = 82,634 joules.

## How much energy does it take to boil a cup of tea?

At first glance, the idea of only putting the water you need to use into the kettle seems pretty finicky. After all, boiling an electric kettle to make a cup of tea only requires about 0.03125kWh of electricity and generates around 0.015kg CO2.

## How much energy is required to boil boiling water?

Phase changes in pure water occur at a specific temperature. At 1 atm, water freezes at 0° C and boils at 100° C. The energy required to change water from a liquid to a solid is 333.7 kJ/kg while the energy required to boil water is 2257 kJ/kg.

## How much energy does it take to boil water calculator?

The specific heat capacity of water is 4.18 J/g/°C. We wish to determine the value of Q – the quantity of heat. To do so, we would use the equation Q = m•C•ΔT. The m and the C are known; the ΔT can be determined from the initial and final temperature.

## How much energy is required to boil 150g water?

Thus, 47,070 J are needed to increase the temperature of 150 g of water from 25 degrees C to its boiling point of 100 degrees C.

## How much electricity does boiling a kettle use?

It turns out that the average kettle holds around 1.5 pints and uses a single unit of electricity. That means you pay about 2.5 pence each time you boil the kettle for a hot brew.

## How much energy is needed to boil 100g water?

The change in temperature is (100°C – 27°C) = 73°C. Since the specific heat of water is 4.18J/g/°C we can calculate the amount of energy needed by the expression below. Energy required = 4.18 J/g/°C X 100g X 73°C = 30.514KJ.

## How much energy does it take to boil 1g of water?

It takes 100 calories to heat 1 g. water from 0˚, the freezing point of water, to 100˚ C, the boiling point. However, 540 calories of energy are required to convert that 1 g of water at 100˚ C to 1 g of water vapor at 100˚ C. This is called the latent heat of vaporization.

## Why is energy needed to boil water?

Boiling water is an endothermic process, which supplies heat to the water molecules, increasing their potential energy. … Once the intermolecular bonds are broken, any extra heat increases the kinetic energy of the system and the molecules of the water vapor move faster as the temperature increases.

## How many joules does it take to boil 1 kg of water?

At 1 atm, water freezes at 0° C and boils at 100° C. The energy required to change water from a liquid to a solid is 333.7 kJ/kg while the energy required to boil water is 2257 kJ/kg.

## How do you calculate the energy required to heat water?

Calculate the kilowatt-hours (kWh) required to heat the water using the following formula: Pt = (4.2 × L × T ) ÷ 3600. Pt is the power used to heat the water, in kWh. L is the number of liters of water that is being heated and T is the difference in temperature from what you started with, listed in degrees Celsius.