yes it does.
The balloon would shrink in size as the air inside cools and contracts. This is because gases, like the air in the balloon, contract when they are cooled and expand when they are warmed.
Heat causes air molecules to gain energy and expand, leading to decreased density and increased buoyancy. This expansion of air can result in air currents, such as wind, as the warmed air rises and cooler air moves in to take its place. Heat can also increase the air's capacity to hold moisture, which can lead to the formation of clouds and precipitation.
When the air inside the bottle is warmed, it expands, creating pressure that can cause the film of bubble solution to expand and create larger bubbles. Conversely, when the air is cooled, it contracts, leading to lower pressure that can cause the bubble film to shrink and create smaller bubbles.
When you exhale, the air has been warmed by your body during the breathing process. As you breathe in air, it first enters your nasal cavity, where it is humidified and warmed to body temperature. This warmed air then moves to your lungs for gas exchange, and when you exhale, that warmth is transferred to the exhaled air.
No, a sample of water will expand and increase in volume when warmed by several degrees Celsius due to thermal expansion.
The warming air would expand and the tyre pressure would go up.
Because the heat causes the air inside the basketball to expand, which increases the pressure in the ball.
The balloon would shrink in size as the air inside cools and contracts. This is because gases, like the air in the balloon, contract when they are cooled and expand when they are warmed.
Inhaled air is warmed and moistened in the nasopharynx and oropharynx.
Heat causes air molecules to gain energy and expand, leading to decreased density and increased buoyancy. This expansion of air can result in air currents, such as wind, as the warmed air rises and cooler air moves in to take its place. Heat can also increase the air's capacity to hold moisture, which can lead to the formation of clouds and precipitation.
The air molecules gain energy and move faster, causing the air to expand and become less dense. Warmed air rises due to its lower density, creating convection currents. The warm air can hold more moisture, leading to a decrease in relative humidity.
When the air inside the bottle is warmed, it expands, creating pressure that can cause the film of bubble solution to expand and create larger bubbles. Conversely, when the air is cooled, it contracts, leading to lower pressure that can cause the bubble film to shrink and create smaller bubbles.
in the night
warms the air
When you exhale, the air has been warmed by your body during the breathing process. As you breathe in air, it first enters your nasal cavity, where it is humidified and warmed to body temperature. This warmed air then moves to your lungs for gas exchange, and when you exhale, that warmth is transferred to the exhaled air.
what happens to air when it touches the warmed air
When air is warmed, it expands and becomes less dense, causing it to rise. As it rises, it creates lower pressure at the surface. This is because there are fewer air molecules pressing down on a given area as the warmed air moves away.