An oxygen tank has a volume of V = 3.00 m3. The gage pressure of oxygen in the tank is Pgage = 400.00 kPa. The room temperature is T = 27.00 ˚C and the atmospheric pressure is Patm = 100.00 kpa. The gas constant of oxygen is R = 0.25980 kPa/(kg·K). Oxygen can be treated as an ideal gas. Determine (2) the mass of oxygen, m =_____ kg

Elements Of Electromagnetics
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An oxygen tank has a volume of V = 3.00 m3. The gage pressure of oxygen in the tank is Pgage = 400.00 kPa. The room temperature is T = 27.00 ˚C and the atmospheric pressure is Patm = 100.00 kpa. The gas constant of oxygen is R = 0.25980 kPa/(kg·K). Oxygen can be treated as an ideal gas.

Determine (2) the mass of oxygen, m =_____ kg

 

An oxygen tank has a volume of \( V = 3.00 \, \text{m}^3 \). The gage pressure of oxygen in the tank is \( P_{\text{gage}} = 400.00 \, \text{kPa} \). The room temperature is \( T = 27.00 \, ^\circ \text{C} \) and the atmospheric pressure is \( P_{\text{atm}} = 100.00 \, \text{kPa} \). The gas constant of oxygen is \( R = 0.25980 \, \text{kPa/(kg} \cdot \text{K)} \). Oxygen can be treated as an ideal gas.

Determine (2) the mass of oxygen, \( m = \) _____ kg. 

[There is a blank space likely intended for input of the calculated mass of oxygen.]
Transcribed Image Text:An oxygen tank has a volume of \( V = 3.00 \, \text{m}^3 \). The gage pressure of oxygen in the tank is \( P_{\text{gage}} = 400.00 \, \text{kPa} \). The room temperature is \( T = 27.00 \, ^\circ \text{C} \) and the atmospheric pressure is \( P_{\text{atm}} = 100.00 \, \text{kPa} \). The gas constant of oxygen is \( R = 0.25980 \, \text{kPa/(kg} \cdot \text{K)} \). Oxygen can be treated as an ideal gas. Determine (2) the mass of oxygen, \( m = \) _____ kg. [There is a blank space likely intended for input of the calculated mass of oxygen.]
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