To find the volume of an inflated balloon, you can measure its diameter using a ruler and then use the formula for the volume of a sphere, V = (4/3) * pi * r^3, where r is the radius (half of the diameter) of the balloon. Plug in the radius and calculate the volume. Alternatively, you can submerge the inflated balloon in a container of water and measure the water displacement to find the volume of the balloon.
To calculate the new volume of a balloon after it has been inflated, you can use the formula for the volume of a sphere, which is V 4/3 r3, where V is the volume and r is the radius of the balloon. Measure the radius of the inflated balloon and plug it into the formula to find the new volume.
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.
decreases. This is because the cold air causes the air molecules inside the balloon to move slower, reducing their kinetic energy and causing the balloon to shrink.
An inflated balloon floats in water because the air inside the balloon makes it less dense than water. The buoyant force acting on the balloon is greater than its weight, causing it to float. The air trapped inside the balloon increases its volume and decreases its overall density, allowing it to stay afloat.
The volume of air inside the balloon will decrease as the temperature drops in the refrigerator, causing the balloon to slightly shrink. When the balloon is taken out of the refrigerator and warms up, the air inside will expand again and the balloon will return to its original size.
To calculate the new volume of a balloon after it has been inflated, you can use the formula for the volume of a sphere, which is V 4/3 r3, where V is the volume and r is the radius of the balloon. Measure the radius of the inflated balloon and plug it into the formula to find the new volume.
The volume of the balloon decreases
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.
A partially inflated weather balloon has a volume of 1.56 x 10^3 liters.
You will need to know the actual size of the balloon as the bigger its inflated the more gas volume required.
It decreases. The colder air contracts, making the balloon shrink.
There is not a PICC line with an inflated balloon for placement.
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When an inflated balloon is exposed to cold air, provided pressure is constant, the volume will decrease. Bring the balloon back to a warmer spot, and the gas gains kinetic energy from the warm air, and the balloon will plump back up.
decreases. This is because the cold air causes the air molecules inside the balloon to move slower, reducing their kinetic energy and causing the balloon to shrink.
An inflated balloon floats in water because the air inside the balloon makes it less dense than water. The buoyant force acting on the balloon is greater than its weight, causing it to float. The air trapped inside the balloon increases its volume and decreases its overall density, allowing it to stay afloat.
There is no difference at all if the balloon is not inflated or inflated with air.