The elastic property of the balloon. The balloon stretches when inflated, and squeezes the gas filling the balloon.
A balloon collapses when air is removed because the air pressure inside the balloon becomes lower than the air pressure outside the balloon. This pressure difference causes the balloon to shrink and collapse.
Heating the air inside the balloon causes the air molecules to move faster and spread out, increasing the pressure inside the balloon. This increase in pressure pushes against the balloon's walls, causing it to expand and inflate.
When a balloon has too much air in it, the pressure inside the balloon increases. Exceeding the balloon's capacity causes the latex material to stretch beyond its limit, leading to a rupture. This sudden release of pressure causes the balloon to pop.
As the balloon rises, the air pressure outside the balloon decreases while the air pressure inside the balloon stays the same. This causes the balloon to expand because the higher pressure inside the balloon pushes against the lower pressure outside.
As the air deflates from a balloon, the reaction force is a decrease in pressure inside the balloon. This decrease in pressure causes the balloon to shrink and collapse as the air rushes out.
A balloon collapses when air is removed because the air pressure inside the balloon becomes lower than the air pressure outside the balloon. This pressure difference causes the balloon to shrink and collapse.
Heating the air inside the balloon causes the air molecules to move faster and spread out, increasing the pressure inside the balloon. This increase in pressure pushes against the balloon's walls, causing it to expand and inflate.
When a balloon has too much air in it, the pressure inside the balloon increases. Exceeding the balloon's capacity causes the latex material to stretch beyond its limit, leading to a rupture. This sudden release of pressure causes the balloon to pop.
hylium (***helium) And actuality the pressure is caused by the elasticity of the balloon itself and don't forget the added pressure of our atmosphere
As the balloon rises, the air pressure outside the balloon decreases while the air pressure inside the balloon stays the same. This causes the balloon to expand because the higher pressure inside the balloon pushes against the lower pressure outside.
As the air deflates from a balloon, the reaction force is a decrease in pressure inside the balloon. This decrease in pressure causes the balloon to shrink and collapse as the air rushes out.
Heating the air inside the balloon causes the air molecules to move faster and spread out, creating higher pressure inside the balloon than outside. This pressure difference causes the balloon to expand and inflate.
Heating a balloon causes the air inside to expand, increasing its pressure. If the pressure exceeds the elastic limit of the balloon material, it will rupture and pop.
When air is removed from a balloon (by, for example, sucking the air out with a vacuum pump), the pressure inside the balloon becomes lower than the pressure outside the balloon. This causes the balloon to collapse as the higher pressure outside the balloon pushes in on the balloon's surface, causing it to shrink in size.
A balloon inflates when it is filled with a gas, such as helium or air, creating pressure inside the balloon which causes it to expand. The gas molecules inside the balloon push against the walls, causing it to stretch and increase in size.
Air pressure is the force responsible for blowing up a balloon. When you blow air into a balloon, the air molecules push against the walls of the balloon, creating pressure inside that causes the balloon to expand.
The sun causes the air inside the balloon to heat up, making the molecules move faster and spread out. As a result, the pressure inside the balloon increases, causing the balloon to shrink because the air molecules are now more densely packed.