Yes. Matter is anything that exists. On earth, it is very difficult to NOT have something that is a sample of some kind of matter. Air is a mixture of transparent gases, but it has pressure and weight and mass; thus, it is matter. Unless a container is a perfect vacuum (such as you'd find in interstellar space, or a science laboratory with complicated equipment for artificially creating one) it contains matter.
Anything that takes up space has matter ... so YES ...
A hot air balloon is lifted from the ground by heating the air inside the balloon with a burner. As the air inside the balloon heats up, it becomes less dense than the surrounding air, causing the balloon to rise. The pilot can control the ascent and descent of the balloon by adjusting the temperature of the air inside.
No, a hot air balloon is not an example of the kinetic theory of matter. The kinetic theory of matter explains how particles in a substance are in constant motion and have kinetic energy. A hot air balloon works on the principle of buoyancy, where the heated air inside the balloon is less dense than the cooler air outside, causing it to rise.
The density of the air inside a hot air balloon is greatest when the air inside is coolest. As the air inside the balloon is heated, it expands and becomes less dense compared to the surrounding air, causing the balloon to rise.
The volume of a hot air balloon increases as the air inside the balloon expands when it is heated. As the balloon ascends and the air temperature decreases, the volume of the air inside the balloon decreases as well. The pilot can control the altitude of the balloon by controlling the temperature of the air inside.
Anything that takes up space has matter ... so YES ...
A hot air balloon is lifted from the ground by heating the air inside the balloon with a burner. As the air inside the balloon heats up, it becomes less dense than the surrounding air, causing the balloon to rise. The pilot can control the ascent and descent of the balloon by adjusting the temperature of the air inside.
No, a hot air balloon is not an example of the kinetic theory of matter. The kinetic theory of matter explains how particles in a substance are in constant motion and have kinetic energy. A hot air balloon works on the principle of buoyancy, where the heated air inside the balloon is less dense than the cooler air outside, causing it to rise.
The air inside a hot air balloon is the same as normal air around the balloon and the air you're breathing, only heated by the flame inside the balloon, hence HOT AIR balloon.
D: The hot air inside the balloon becomes less dense than the air outside the balloon.
The density of the air inside a hot air balloon is greatest when the air inside is coolest. As the air inside the balloon is heated, it expands and becomes less dense compared to the surrounding air, causing the balloon to rise.
The volume of a hot air balloon increases as the air inside the balloon expands when it is heated. As the balloon ascends and the air temperature decreases, the volume of the air inside the balloon decreases as well. The pilot can control the altitude of the balloon by controlling the temperature of the air inside.
Heating the air inside the balloon makes it less dense than the surrounding air, causing the balloon to float upwards. As the air inside the balloon cools, it becomes denser and the balloon descends. The pilot can control the altitude by adjusting the temperature of the air inside the balloon.
The pressure inside a balloon is created by the air molecules contained within the balloon pushing against the walls of the balloon. As more air is blown into the balloon, the number of air molecules increases, leading to a higher pressure inside the balloon.
When air is blown into a balloon, it fills the space inside. The pressure of the air increases, causing the balloon to expand. If the balloon is sealed, the air inside remains trapped, making the balloon float or hover depending on the amount of air inside.
D: The hot air inside the balloon becomes less dense than the air outside the balloon.
As the balloon cools down, the air inside will also cool. This will cause the air pressure inside the balloon to decrease, potentially leading to the balloon descending back to the ground due to the decreased pressure.