It expands.
When the gas in a balloon is heated, its temperature increases, causing the gas molecules to move faster and collide more frequently with the walls of the balloon. This increases the pressure inside the balloon, which causes the balloon to expand as it attempts to accommodate the increased volume of gas.
When you put oxygen into a balloon, the gas fills up the balloon and increases the pressure inside. This causes the balloon to expand and inflate. If too much oxygen is put into the balloon, it could burst due to the increased pressure.
When a balloon is squeezed, the volume of the balloon decreases. This causes the gas inside the balloon to be compressed, increasing the pressure of the gas.
As the speed of particles inside an air-filled balloon increases, the pressure inside the balloon also increases due to more frequent collisions with the walls of the balloon. This can cause the balloon to expand or even burst if the speed increases significantly.
It would increase. The balloon would expand because when temperature increases, volume increases as well.
Placing the balloon in hot water increases the temperature of the gas inside the balloon. As a result, the gas molecules gain energy and move faster, increasing the volume of the gas inside the balloon due to expansion.
== == According to Charles's Law, "At constant pressure, the volume of a given mass of an ideal gas increases or decreases by the same factor as its temperature (in Kelvin) increases or decreases." Therefore, if the temperature of the gas is decreased, the volume of the gas will decrease proportionally, and the balloon will contract.
Temperature affects the gas in a balloon by changing the volume of the gas inside. As temperature increases, the gas molecules move faster and take up more space, causing the balloon to expand. Conversely, a decrease in temperature causes the gas molecules to slow down and the balloon to shrink.
When you blow air into a balloon, the pressure inside the balloon increases. This increased pressure pushes the rubber material of the balloon outward, causing it to expand and inflate. The material of the balloon stretches to accommodate the higher volume of air being forced into it.
In Charles's Law experiments involving a balloon, the independent variable is the temperature of the gas inside the balloon. As the temperature increases, the volume of the gas also increases, assuming the pressure remains constant. This relationship illustrates how gas expands when heated, demonstrating the principles of Charles's Law.
When a gas molecule enters a balloon, it collides with the inner surface of the balloon, exerting pressure outward. As more gas molecules enter the balloon, the pressure inside increases, causing the balloon to inflate and expand to accommodate the increasing volume of gas.
When you blow into a balloon, the particles of air you exhale are compressed and forced into the balloon. This increases the air pressure inside the balloon, causing it to expand and inflate.