Question

When air is heated, it __________ and can hold __________ water. a. sinks; less b. sinks; more c. rises; less d. rises; more

Short answer

d. rises; more

Step-by-step solution

Understand the Effect of Heating on Air

When air is heated, it becomes less dense compared to the surrounding cooler air, leading to it rising. This is due to the decrease in the weight per unit volume because the air molecules move further apart when heated.

Assess Air's Capacity to Hold Water

Warm air is able to hold more moisture compared to cool air because as temperature increases, the air molecules move faster and can accommodate more water vapor. This means heated air has an increased capacity to retain water.

Analyze the Options

Examine each option based on the understanding of the changes in air when heated: - Option (a): Sinks; less (incorrect because heated air rises and holds more moisture). - Option (b): Sinks; more (incorrect because heated air rises). - Option (c): Rises; less (incorrect because heated air holds more moisture, not less). - Option (d): Rises; more (correct because heated air rises and holds more water).

Key concepts

Density of Air

Air density refers to how much air mass exists in a certain volume. When we talk about density, imagine a room full of people where they are standing close to each other. If people move apart, the room becomes less crowded or less dense. Similarly, when air is heated, the molecules within it gain energy and start to move faster and spread out.
This movement results in fewer molecules being packed into a given space at higher temperatures, ultimately reducing the air's density.

• Heated air becomes lighter than cooler air around it because it has fewer molecules in the same volume.
• This lighter (or less dense) air then tends to rise above the cooler, denser air.

Understanding how air density changes with temperature is crucial for grasping why hot air balloons float and why weather patterns involve rising warm air.

Air Moisture Capacity

Air's ability to hold moisture changes significantly with temperature. Warm air can hold more water vapor than cold air and this happens because heat affects the movement and space between air molecules.
As air is heated, its molecules move apart, creating space for more water vapor to exist in the air.

• Higher temperatures enable air to carry more moisture, which is why humid summer days feel so sticky.
• This relationship also explains why cold, winter air often feels dry, as it's less capable of holding moisture.

The increase in air's moisture capacity with temperature is why we often use humidifiers during winter to add more moisture to our homes.

Effects of Heating on Air

When air is heated, several physical changes occur that affect weather, climate, and everyday experiences. Besides reducing density and increasing moisture capacity, heating air causes it to expand.

• This expansion results in a decrease in atmospheric pressure in the heated area, leading to wind as cooler air moves in to fill the gap.
• Heated air rises, similar to how steam from a hot cup of coffee rises - it seeks equilibrium with the cooler air around it.

These effects of heating are pivotal for understanding phenomena like sea breezes and mountain winds, which are caused by differences in heating between land and water or between different elevations. Consequently, heating air not only affects its immediate properties but also has broader implications on environmental processes.