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∙ 7y agoBy heating the intermolecular forces are weakened and liquid molecules can escape as a gas.
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∙ 7y agoWhen water vapor is heated, it gains more energy and its molecules move faster. This can lead to an increase in the pressure and volume of the vapor. If the temperature continues to rise, the water vapor can reach a critical point where it transitions back into liquid water.
The process that involves the transformation of liquid water into gaseous water vapor in the water cycle is called evaporation. This occurs when heat energy from the sun causes liquid water on the Earth's surface to change into water vapor and rise into the atmosphere.
Evaporation occurs when the Earth's surface is heated by the sun's energy, causing water to change from a liquid to a gas and rise into the atmosphere as water vapor. This process is crucial for the water cycle as it helps in the transfer of water from the surface back into the atmosphere.
Yes, as liquid water is heated, the kinetic energy of its molecules increases, causing them to move faster and collide more often. This increased movement and collisions among the water molecules lead to a rise in temperature.
When ice is heated from -1 degrees to 0 degrees, it melts into water. As the temperature continues to rise from 0 degrees to 100 degrees, the water heats up and eventually boils at 100 degrees, turning into water vapor. At 101 degrees, the water vapor will continue to increase in temperature.
When water vapor is heated, it gains more energy and its molecules move faster. This can lead to an increase in the pressure and volume of the vapor. If the temperature continues to rise, the water vapor can reach a critical point where it transitions back into liquid water.
The process that involves the transformation of liquid water into gaseous water vapor in the water cycle is called evaporation. This occurs when heat energy from the sun causes liquid water on the Earth's surface to change into water vapor and rise into the atmosphere.
the water vapor would rise up in the sky and then it will become cool, then it will form a cloud
The process that allows water to enter the atmosphere is called evaporation. This occurs when water bodies like oceans, rivers, and lakes are heated by the sun, causing the water to change from liquid to vapor and rise into the air.
The process in which water changes from a liquid to a gas is called evaporation. This occurs when water molecules gain enough energy to break free from the liquid phase and become water vapor in the air.
Vapor bubbles rise to the surface during boiling because the liquid is being heated, causing the molecules to gain energy and form gas bubbles. These bubbles are lighter than the surrounding liquid and therefore float to the surface. The bubbles burst at the surface, releasing the gas into the air.
No, when water vapor condenses into a liquid, heat is released, not absorbed, which can cause a decrease in temperature. This process is known as the latent heat of condensation.
Evaporation occurs when the Earth's surface is heated by the sun's energy, causing water to change from a liquid to a gas and rise into the atmosphere as water vapor. This process is crucial for the water cycle as it helps in the transfer of water from the surface back into the atmosphere.
bubbles rise to the surface of a heated liquid as it changes to gas because they are less dense than the liquid.
water that is a liquid, evaporates into the air. and becomes dense forming moisture (water vapor)
Boiling specifically means that the liquid's partial vapor pressure is equal to the atmospheric pressure.From Wikipedia: "Boiling is the rapid vaporization of a liquid, which occurs when a liquid is heated to its boiling point, the temperature at which the vapor pressure of the liquid is equal to the pressure exerted on the liquid by the surrounding environmental pressure."Simple evaporation is a slow process where a liquid turns to cool vapor at temperatures below the boiling point. Boilingis a rapid process where a liquid turns to hot vapor when heated to the boiling point. Boiling involves the formation of bubbles of this hot vapor, which rise to the surface of the liquid, where they break and release the vapor.
Water vapor turns into liquid water droplets when it rises and cools, usually forming clouds in the atmosphere.