The word "deflated" means that all of the air or gas has been let out. So, a deflated balloon is one that no longer has any air in it.
Yes! If you heat a bottle with hot water, the balloon would grow bigger and bigger while if you put it under cold water, you would find out that the balloon became deflated again.
The air pressure inside the balloon will be slightly higher than outside. This is because the air inside the balloon is slightly compressed by the elasticity of the membrane of the balloon itself. By way of illustration, if you inflate a balloon, don't tie it and just let it go, then to everyones' amusement at parties the balloon flies crazily around the room until it is fully deflated! This fun aspect of balloons occurs as a result of the higher pressure inside the balloon escaping from the balloon to join the air in the room that is at normal pressure. Actually measuring the pressure inside the inflated balloon would require an experiment where the volume of pressurised air in the inflated balloon could be measured by a) measuring the volume of pressurised air inside the balloon by fully immersing the inflated balloon in a measuring receptacle full of water (with normal atmospheric pressure in the room pressing down on the surface of the water) and, then b) measuring the volume that the pressurised airinside the balloon would occupy once outside the balloon at normal atmospheric air pressure by inverting the measuring receptacle full of water (whilst held in a larger shallow tank of water so as to keep the measuring receptacle full of water once inverted - in the usual physics lab manner) and then release the air from the balloon into inverted water-filled measuring receptacle where it would gather in the top of the same. The difference in the two volumes would directly correlate with the difference in air pressure inside and outside the balloon.
The gas inside the inflated balloon has mass. At standard atmospheric conditions at sea level air weighs approximately one kilogram per cubic metre. A 10 passenger hot air balloon has an inflated volume of about 9000 cubic metres so the air inside the balloon weighs around nine tonnes!
Because of the intermolecular space, air molecules will slowly bind to the rubber molecules and eventually will find there way out. This will go pretty fast with a balloon because of the thin wall. But it also happens to your car tire, but more slowly.
A balloon clock is a form of bracket clock with a balloon-shaped case.
An inflated balloon weighs more than a deflated one because the air inside adds mass to the balloon. When the balloon is deflated, it contains less air or no air at all, resulting in less weight.
No, the mass of the deflated balloon is the same as the mass of the inflated balloon, as the only thing that changes is the volume and density of the air inside the balloon.
The mass of the deflated balloon is the same as the mass of the inflated balloon. The mass of an object does not change whether it is inflated or deflated.
A deflated balloon is lighter than an inflated balloon because the air inside the inflated balloon adds weight to it. When the air is released, the balloon becomes lighter because it is no longer burdened by the added weight of the air molecules.
To release the air in something, eg a balloon. It can also be to reduce, eg a persons happiness can be deflated :)
Yes, a deflated balloon can be blown up again by adding air or helium to it using a pump or by blowing into it with your mouth. The balloon will expand and return to its original shape and size when inflated.
The word "deflated" means that all of the air or gas has been let out. So, a deflated balloon is one that no longer has any air in it.
The inflated balloon has air inside it, causing it to expand and increase in size. The deflated balloon has no air inside it, so it appears shriveled or smaller in size.
When you blow air into a deflated balloon, the pressure from the air molecules pushes against the walls of the balloon, causing it to inflate and take on a round shape. The elastic material of the balloon allows it to expand and hold the air inside, maintaining its round shape until the pressure inside and outside the balloon equalizes.
i doubt that. the air eventually escapes somehow.
Freezing a balloon causes the air molecules inside to contract, reducing the volume of the gas and decreasing the pressure exerted on the balloon walls. This results in a deflated appearance as the balloon becomes smaller.
When the balloon is inflated, it is filled with air, which has less mass than the solid material of the deflated balloon. So overall, the balloon has less mass when inflated because the mass of the air inside it is lighter than the solid material of the balloon.