1. As this warm air contacts the cold storm window glass its moisture condenses. 2. As it rises, it cools, and its moisture condenses into rain clouds. 3. At excessive levels, moisture condenses on windows and can cause structural deterioration. 4. Hurricanes, tropical brethren of winter storms, derive their energy from heat given off when moisture evaporated from warm seas condenses into cloud droplets. 5. The heat is absorbed from the air and ambient moisture condenses and collects in a pan under the coils. 6. The heat that is released when the abundant moisture condenses into clouds and precipitation adds further fuel to the storms, giving rise to widespread high winds. 7. The vapor accumulates until the air becomes saturated and cannot hold more, at which point the moisture condenses on any cool surface. 8. When moisture condenses on them, they do not rust. 9. When these air masses meet, warm, moist air near the ground rises, and, when it meets colder air aloft, the moisture condenses into rain. 10. When this air hits the cold sheathing on the other side of the insulation, the moisture condenses and collects in the framing cavities. |