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How much energy is released when 6.0 of water is condensed form water vapor?
The energy released when condensing water vapor is known as the heat of condensation. It takes 2260 Joules of energy to condense 1 gram of water vapor. So, for 6.0 grams of water vapor, the energy released would be 6.0 grams * 2260 Joules/gram = 13,560 Joules.
How much energy is released when 6.0g of water is condensed from water vapor?
The energy released during the condensation of water vapor can be calculated using the formula: Energy = mass x heat of vaporization. The heat of vaporization of water is approximately 2260 J/g. Therefore, the energy released when condensing 6.0g of water vapor would be around 6.0g x 2260 J/g = 13,560 J.
Is condensing water vapor into rainfall a chemical or physical change?
Condensing water vapor into rainfall is a physical change. It involves a change in the state of water from gas (water vapor) to liquid (rainwater) without altering the chemical composition of water molecules.
How do water vapor move?
Water vapor moves through the atmosphere by a process called evaporation, where liquid water turns into vapor due to heat energy from the sun. The water vapor then rises into the atmosphere and can be transported by wind currents, eventually condensing back into liquid form to form clouds or falling back to the ground as precipitation.
Does condensation release latent heat?
Yes, condensation releases latent heat as water vapor changes into liquid water. Latent heat is the energy absorbed or released during a phase change (in this case, from gas to liquid) without a change in temperature.
How much energy is released when 6.0 of water is condensed form water vapor?
The energy released when condensing water vapor is known as the heat of condensation. It takes 2260 Joules of energy to condense 1 gram of water vapor. So, for 6.0 grams of water vapor, the energy released would be 6.0 grams * 2260 Joules/gram = 13,560 Joules.
How much energy is released when 6.0g of water is condensed from water vapor?
The energy released during the condensation of water vapor can be calculated using the formula: Energy = mass x heat of vaporization. The heat of vaporization of water is approximately 2260 J/g. Therefore, the energy released when condensing 6.0g of water vapor would be around 6.0g x 2260 J/g = 13,560 J.
What is the source of energy that fuels a thunderstorm?
A thunderstorm is fueled by the transfer of heat and moisture from the surface of the Earth into the atmosphere. This transfer of energy creates instability in the atmosphere, leading to the formation of thunderstorms.
Condesation is an endothermic or exothermic?
condensation is the exothermic because the condensing particles reduce their kinetic energy during combination.
What occurs at the cloud base where water vapor begins condensing?
At the cloud base when water vapor begins condensing it begins to release it. This releasing is called rain.
What are formed from cooled water vapor condensing?
fog
Are water droplets condensing on a soda can on a hot summer day exothermic or endothermic?
exothermic
How are storms clouds and water vapor all connected?
All clouds are condensing water vapor.
How long does water vapor typically linger in the atmosphere before condensing into clouds or precipitation?
Water vapor typically lingers in the atmosphere for a few days before condensing into clouds or precipitation.
What is condensing point?
The condensing point is the temperature at which a substance changes from a gas to a liquid during the process of condensation. It is the point at which vapor molecules lose enough heat energy to form a liquid.
Is energy released when water vapor condenses into liquid?
Yes, energy is released when water vapor condenses into a liquid. This process is called condensation, and it results in the conversion of water vapor's latent heat energy into sensible heat energy in the form of heat released to the surrounding environment.
Is condensation endergonic?
Condensation is typically an exergonic process, meaning it releases energy. Water vapor condensing into liquid water, for example, releases heat into the surroundings.
