no
No, condensation does not require an input of energy. It is the process in which a gas transforms into a liquid state by releasing heat energy. This heat energy is typically given off to the surroundings.
Changes of state that require energy: melting (solid to liquid) and vaporization (liquid to gas). Changes of state that release energy: freezing (liquid to solid) and condensation (gas to liquid).
Two changes in state that require the release of latent potential energy are condensation, where gas turns into liquid and releases energy, and freezing, where liquid turns into solid and releases energy.
Condensation is typically considered an energy loss because it releases energy as heat when water vapor changes to liquid water. This energy is known as latent heat of condensation.
Endothermic processes require heat to occur, such as melting and vaporization, because energy is absorbed from the surroundings. Exothermic processes give off heat, such as freezing and condensation, because energy is released to the surroundings.
no, because condensation is loss of thermal energy from a hot body , only temperature difference should maintain
No, condensation does not require an input of energy. It is the process in which a gas transforms into a liquid state by releasing heat energy. This heat energy is typically given off to the surroundings.
The three phase changes that require energy to be removed are condensation, freezing, and deposition. During condensation, gas transitions to liquid, releasing energy. Freezing occurs when a liquid changes to a solid, also releasing energy. Deposition is the direct transition from gas to solid, which releases energy as well.
Changes of state that require energy: melting (solid to liquid) and vaporization (liquid to gas). Changes of state that release energy: freezing (liquid to solid) and condensation (gas to liquid).
Two changes in state that require the release of latent potential energy are condensation, where gas turns into liquid and releases energy, and freezing, where liquid turns into solid and releases energy.
thermal energy is released during condensation.
Energy release is to condensation as energy input is to vaporization. Vaporization requires energy input to happen, while condensation releases energy.
When condensation occurs, it is a gain thermal energy.
Condensation is typically considered an energy loss because it releases energy as heat when water vapor changes to liquid water. This energy is known as latent heat of condensation.
Endothermic processes require heat to occur, such as melting and vaporization, because energy is absorbed from the surroundings. Exothermic processes give off heat, such as freezing and condensation, because energy is released to the surroundings.
Condensation releases latent heat energy as water vapor transitions into liquid water. This energy is absorbed during evaporation and released during condensation, helping to maintain the earth's energy balance.
Condensation is a phase change process that releases energy in the form of heat when water vapor transforms into liquid water. This energy is known as latent heat of condensation.