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The ocean has more thermal energy than a pot of boiling water because it contains a vastly greater volume of water, allowing it to store much more heat overall. While boiling water reaches a high temperature, the total thermal energy is determined by both temperature and mass; the ocean's immense mass compensates for its average lower temperature. Additionally, the ocean can absorb and retain heat over large areas and depths, contributing to its overall thermal energy capacity.
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What are the ultimate sources of ocean thermal energy?
Actually ocean thermal energy is being used in all the cold and icy places called Alaska and Antarctica because Ocean thermal is the difference between cold and warm waters. so that is important because when the water is warm it will melt and causes global warming.And the earth will be a flooded area and that is really dangerous.
Why is it true that a cup of boiling water contains less heat than a large iceberg?
While the boiling water is at a higher temperature, the iceberg contains significantly more thermal energy due to its larger mass. The iceberg has stored more heat energy to maintain its frozen state, whereas the boiling water is closer to its boiling point but has less overall energy.
How much thermal energy is necessary to vaporize 36.000 g of water at its boiling point?
To calculate the thermal energy required to vaporize water, we use the formula: ( Q = m \times L_v ), where ( m ) is the mass of the water and ( L_v ) is the latent heat of vaporization of water, approximately 2260 J/g. For 36,000 g of water, the thermal energy needed would be ( Q = 36,000 , \text{g} \times 2260 , \text{J/g} ), which equals 81,360,000 J, or 81.36 MJ. Thus, 81.36 megajoules of thermal energy is necessary to vaporize 36,000 g of water at its boiling point.
Do boiling water causes chemical energy?
Boiling water can be either thermal energy or kinetic energy dependent upon how it's used. If it is used to heat up another object (thereby transferring energy in that manner) it is thermal; if the water vapor from the boiled water is used to say, run a turbine, it would be kinetic in that sense. Chances are, for most cases involving boiling water, or more specifically the water vapor produced by it, the energy associated with that will be kinetic.
Which has more thermal energy a large pot of boiling water or a small pot of boiling water?
Yes, if they are the same temperature. The larger bowl would have more mass thus more energy available.
What has more thermal energy a cup of boiling water or a pot of boiling water?
A pot of boiling water has more thermal energy than a cup of boiling water because it contains a greater volume of water and therefore a higher total amount of heat energy.
Does 4 cups of boiling water have the same thermal energy as 2 cups of boiling water?
No, 4 cups of boiling water would have more thermal energy than 2 cups of boiling water. The amount of thermal energy is directly related to the quantity of water and its temperature. More water requires more energy to heat it to boiling temperature, resulting in higher thermal energy.
When a stove is boiling water what type of energy transformation occurs?
When a stove is boiling water, electrical energy from the stove is being transformed into thermal energy as the stove heats the water. The thermal energy then causes the water to boil and turn into steam.
What energy does boiling water use?
Boiling water typically uses thermal energy, which is the energy associated with heat. When water reaches its boiling point, the thermal energy added to the water causes the water molecules to gain enough kinetic energy to break free from their liquid state and change into vapor.
What type of thermal energy is used to boil an egg?
In a pan of boiling water, the thermal energy from the source (the gas ring or electric plate) is being distributed mainly by convection, and the thermal energy enters the egg by conduction from the boiling water.
What form of energy does the kettle have when water in it is boiling?
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What happens to the water when thermal energy is transferred to it?
When thermal energy is transferred to water, the water molecules absorb the energy and their kinetic energy increases. This causes the temperature of the water to rise, eventually leading to the water boiling and turning into steam.
What is a sentence using the word thermal energy?
The process of boiling water relies on the thermal energy transferred from the stove to the water, causing the molecules to move rapidly and increase in temperature.
What energy transformation is in a boiling pot of water?
The energy transformation in a boiling pot of water is from thermal energy (heat) to kinetic energy (movement of water molecules) as the temperature rises and water molecules gain enough energy to escape as water vapor.
What kind of energy is water boiling in a kettle?
The energy used to boil water in a kettle is primarily thermal energy, which is the heat transferred to the water from the heating element in the kettle. This causes the water molecules to gain kinetic energy and eventually reach the boiling point, turning into steam.
Where does ocen thermal energy come from?
Ocean thermal energy comes from the heat stored in the sun-warmed surface layers of the ocean. The temperature difference between the warm surface water and the cold deeper water is harnessed to generate electricity using ocean thermal energy conversion (OTEC) systems.
Is vaporizing input or output of energy?
The evaporation and vaporization of water is an endothermic process. As water vaporizes it absorbs heat energy. The changing of phase from liquid water to gas also means an increase in kinetic energy.
