When you fill a balloon with air, the air molecules displace the surrounding space inside the balloon, causing the balloon to expand and stretch. The pressure of the air inside the balloon exceeds the pressure outside, creating tension in the balloon material, which keeps it inflated.
an inflated balloon has air in it so it takes up more space and matter is something that takes up more space so here by defining matter.
It is a disordered motion.
your swan ganz catheter is more inside than that required for wedge position, therefore after inflation of the balloon ,the balloon may come in the way of tip of the catheter and it will not show the tracing of the catheter.
Natural air is always a mixture, and more or less homogenous in its major constituents. However, if the balloon was inflated by mouth, it will have less oxygen and more carbon dioxide than the air outside the balloon, which is also a mixture.
The force in an inflated balloon is exerted outward equally in all directions.
There is not a PICC line with an inflated balloon for placement.
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There is no difference at all if the balloon is not inflated or inflated with air.
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.
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.
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.
Yes, a balloon maintains its shape after being inflated because it is filled with air, which exerts pressure on the walls of the balloon to keep it inflated. If the balloon is tied or sealed properly, it will hold its shape until the air inside gradually seeps out over time.
Helium goes into a balloon to make it float.
The balloon is inflated and stays that way because it is filled with a gas, such as helium or air, that is less dense than the surrounding air. This causes the balloon to float and maintain its inflated shape due to the difference in pressure inside and outside the balloon.
Closing the mouth of an inflated balloon helps to keep the air trapped inside. If the mouth is left open, the air can escape and deflate the balloon. Closing the mouth also helps to create pressure inside the balloon, keeping it inflated.
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.