because of the poor elasticity of the balloon
Blowing up a balloon is not an example of diffusion. Diffusion is the movement of particles from an area of high concentration to an area of low concentration, while blowing up a balloon involves forcing air into the balloon using pressure.
Helium typically fills a balloon faster than air because it is less dense than air and flows easily into the balloon. Helium is also less likely to escape from the balloon due to its smaller molecular size compared to the molecules in air.
Only a hot mixture of the same gases that are in the air you breathe.
No, a hot air balloon involves physical changes such as heating and expanding the air inside the balloon, without involving any chemical reactions.
Blowing up a balloon is a physical change because the air being blown into the balloon does not alter the chemical composition of the balloon material. The change is reversible, as the balloon can be deflated and reinflated multiple times without changing its chemical makeup.
the volume of air inside the balloon increases while the pressure of balloon decreases thus balloon inflates
becaz d air molecules require more space than required if u keep on blowing air into it
because it is stretched too far.... common sense i think.. no days its probably uncommon sense.
When you blow air into a balloon, the air pressure inside builds, thus causing the latex skin to expaand. Eventually, the latex won't be able to expand anymore, so it catastrophically fails. (AKA, it pops.)
Yes, blowing air into a balloon creates a pressure difference between the inside and outside of the balloon, causing the balloon to expand. This expansion is a result of the air molecules inside the balloon being pushed outward by the force of the air being blown in.
Blowing up a balloon is not an example of diffusion. Diffusion is the movement of particles from an area of high concentration to an area of low concentration, while blowing up a balloon involves forcing air into the balloon using pressure.
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.
Blowing up a balloon is a reversible change because the process can be reversed by letting the air out of the balloon. The balloon returns to its original state before it was blown up.
When you blow air into a balloon, you increase the pressure of the air inside the balloon. This higher pressure pushes against the walls of the balloon, causing it to expand and inflate. The elastic material of the balloon stretches to accommodate the increased volume of air.
Blowing air into the balloon increases the pressure inside the balloon. This increased pressure pushes against the walls of the balloon, causing it to expand and stretch. The volume of the balloon increases, allowing it to hold more air.
Blowing more air into a balloon would increase its mass, causing it to fall faster when released due to an increase in gravity. Additionally, the added air pressure inside the balloon would likely result in a quicker deflation once released.
Blowing air into a balloon increases the pressure and stretches the balloon material. If you blow too much air, the pressure inside the balloon exceeds the elastic limit of the material, causing it to burst.