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.
40 cubic meters...
60
8 is the new volume of the gas.
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).
Every 10 meters deep, the pressure increases by one atmosphere, approximately. Therefore, at 90 meters depth you would have, approximately, a pressure of 10 atm. (that is absolute pressure).Every 10 meters deep, the pressure increases by one atmosphere, approximately. Therefore, at 90 meters depth you would have, approximately, a pressure of 10 atm. (that is absolute pressure).Every 10 meters deep, the pressure increases by one atmosphere, approximately. Therefore, at 90 meters depth you would have, approximately, a pressure of 10 atm. (that is absolute pressure).Every 10 meters deep, the pressure increases by one atmosphere, approximately. Therefore, at 90 meters depth you would have, approximately, a pressure of 10 atm. (that is absolute pressure).
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.
60
The speed of light in air is approximately 350 meters/second. It is not constant; it depends on pressure, temperature, and humidity.
As pressure is force per unit area (Newtons/m2) and volume is m3, then PV would simplify to Newtons*meters which is joules.
800mm Hg Pressure and Volume are inversely proportional... thus is volume is halved (400ml -> 200ml) then pressure would double (400 mmHg -> 800 mmHg)
It depends on air pressure and temperature and whatnot, but it's about 340 meters/second.
p1.V1 / T1 = constant = p2.V2 / T2 (the 'Boyle&Gay-Lussac' Law)250*15/100 = 500*30/ T2T2 = 400K
Constant acceleration
Argos at 2000 meters measure conductivity, temperature and pressure.
Well there are two ways in the metric system Liters and cubic meters take your pick and the volume can be found from the equation below. (PV= MRT) or (Pressure) * (Volume) = (Molar Mass of Gas) * (R constant) * (Temperature of gas)
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.