Yes, no matter how much air is filled inside of the balloons.
yea sure
yes
if force increaces and area stays the same then pressure
All the same. One atmosphere (about 760 mm Hg).
At the same atmospheric pressure, yes. That's kind of the definition of boiling point: when the vapor pressure is the same as the atmospheric pressure.
The wind pressure inside the tube is constant, while the pressure outside is not. Also, the pressure above and below the tube are constantly moving at the same rate, therefore same pressure. What happens if there are the same pressure? You get it? When pressure is the same on both sides, it stays in the air! The reason it falls is because it stopped spinning, and therefore the pressure is the same in all three places: Above, Inside, and Below. This is all a lie
because the pressure is the same on the outside and inside of can making the can staying the same and not being crushed
PV/NrT, pressure(volume)/amount(constant)(temperature). When your temperature, volume, and pressure are all the same, you get the same number of particles. This is avogadros hypothesis. Let's say that you have to balloons. They have the same temperature, volume, and pressure. If you weigh the gases in the balloon, you will find that there is the same amount of particles. In fact Dalton did this was able to find out the amount of particles (atoms) by the mass of objects.
There is a lot of pressure on the outside of the body, but the same amount of pressure inside the body. Angler Fish have also eveolved with very tough organs. Answer By Awesomeluke53
Because the pressure of a gas is dependent on the temperature. The same amount of gas - as what you have inside your balloon - will have a higher pressure when it's warm, and a lower pressure when it's cold. And higher pressure = more inflation. Lower pressure = less inflation.
Regardless of size, both balloons will burst when atmospheric pressure becomes too much for them. Assuming the helium to rubber/latex ratio is kept the same, both balloons will burst at the same pressure. Depending on where you are in the world and the weather, the atmospheric pressure at one height differs, so it couldn't be said that both balloons will float upwards to the same height, but it can be said that they will fly to the same pressure. Thus the question "Does a little balloon fly as far as a big balloon?" is invalid, but hopefully this answer will suit your wonders.
Because your body is mostly made up of water, which is able to withstand great amounts of pressure. The parts that can't withstand the pressure very well are the air spaces, your sinuses, your lungs and your intestines if they have air trapped in them. The reason they are able to withstand the pressure is because the scuba regulator delivers air at the same pressure as the outside water, meaning that they are essentially blown back up again as they try to shrink.
No it doesn't have helium. A hot air balloon derives it's lift from heated air, which is less dense and therefore lighter than normal air. A helium balloon derives it's lift from helium, a gas which at normal temperatures is less dense than normal air. So both fly 'lighter than air' but for different reasons.
im going to say yes because its made of rubber
no
No. At the same pressure, a helium filled balloon will be less dense than an air-filled balloon.
it would disturb pressure gradients as it would mean same amount of pressure
You then have two balloons in very nearly the same place.
We can feel it. We feel it as pressure. We can also weigh it. Take two balloons of the same size and inflate them the same amount so that they balance out on a balance scale. Now pop one of them. The balance will tip towards the intact balloon, showing that the air inside has some mass.