wo spherical vessels of different sizes contain the same gas and are connected by means of a pipe with a valve. Sphere A has a diameter of 5 foot at the given pressure gauge of 50 kgf/cm2. Sphere B contains the same gas at 20 kgf/cm² gauge. The valve is opened and when the properties have been determined, it is found out that the gauge pressure is 36 kgf/cm2. The temperature at the two vessels before and after opening the valve is maintained at 21.1°C. If the barometric pressure is 750 torr and the gas inside the sphere is oxygen, find the following: 1. The volume of sphere A in in. 2. The pressure of sphere A in psia. 3. The temperature of sphere A in R. 4. The pressure at sphere B in psia. 5. Temperature at sphere B in F. 6. The pressure of the gas when mixed in psia. 7. The temperature of the gas when mixed in K. 8. The atmospheric pressure in psi. 9. The diameter of Sphere B. 10. The total mass of the gas after opening the valve
wo spherical vessels of different sizes contain the same gas and are connected by means of a pipe with a valve. Sphere A has a diameter of 5 foot at the given pressure gauge of 50 kgf/cm2. Sphere B contains the same gas at 20 kgf/cm² gauge. The valve is opened and when the properties have been determined, it is found out that the gauge pressure is 36 kgf/cm2. The temperature at the two vessels before and after opening the valve is maintained at 21.1°C. If the barometric pressure is 750 torr and the gas inside the sphere is oxygen, find the following: 1. The volume of sphere A in in. 2. The pressure of sphere A in psia. 3. The temperature of sphere A in R. 4. The pressure at sphere B in psia. 5. Temperature at sphere B in F. 6. The pressure of the gas when mixed in psia. 7. The temperature of the gas when mixed in K. 8. The atmospheric pressure in psi. 9. The diameter of Sphere B. 10. The total mass of the gas after opening the valve
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