Use the ideal gas equation to solve this. PV= nRT. You will have to convert your pressure to atmosphere to use the constant R = 0.0821 L*ATM/mol*K. You know your initial pressure, volume, and temperature. Moles can be neglected (n) because they will stay the same. You also know your final pressure and final volume, so you can solve for final temperature.
90 meters. Every 10 meters, the pressure increases by approximately 1 bar, to this, you have to add the atmospheric pressure, which is also approximate 1 bar.
Celsius
"5 meters" is not an area.If the area is 5 square meters, then you're describing a pressure of 5 pascals.
10 meters of water depth equals about 1 atmosphere.
Meters is a unit of length, bar is a unit of pressure. You can't convert between the two.
8. Two cubic meters of a gas at 30 degrees Celsius are heated at a constant pressure until the volume doubles. What is the final temperature of the gas? 60.
p1.V1 / T1 = constant = p2.V2 / T2 (the 'Boyle&Gay-Lussac' Law)250*15/100 = 500*30/ T2T2 = 400K
It depends on air pressure and temperature and whatnot, but it's about 340 meters/second.
Argos at 2000 meters measure conductivity, temperature and pressure.
add 1 atm (atmosphere) for every 10 meters below the surface
About 330 meters/second. However, it varies a bit, depending on pressure and temperature.
0.5 meter is not an area, that's a length. In general, the relation is: pressure (in pascal) is force (in newton) divided by area (in square meters).
The answer is 10 meters.
It would decrease because the distance between the blocks has increased.
The amount of air in the tire stays the same.The outside pressure drops about 3psi or 0,2 bar, when you are at about 2000 meters or 6000 feet. So you would expect that the pressure you measure is higher. But on 2000 meters height there is mostly a lower temperature, this lowers the pressure in the tire a bit. So it would not be strange if you measure the same pressure.
Your question makes little sense. If a cylinder holds 6 cubic meters of nitrogen at one atmosphere pressure the volume of the cylinder is 6 cubic meters. However as 150 newtons per squsre meter = 150 Pascals = 0.001480384754 atmospheres, if you took 6 cubic meters of nitrogen at this pressure and then increased the pressure to 1 atmosphere the volue would shrink (because the volume of a gas is inversely proportional to the pressure) from 6 cubic meters to 0.008882308524 cubic meters.
It changes slightly, depending on the temperature, pressure, and humidity of the air. I use the figure of 340 meters per second.