Please answer both parts!

a.)b.)

Values of the Universal Gas Constant R = 8.314 J-mol-K-1 = 8.314 m.Pa mol-1.K-1 = 83.14 cm.bar-mol-?.K-1 = 8314 cm.kPa.mol-K-1 82.06 cm. (atm).mol-'K-' = 62, 356 cm (torr).mol-K- 1.987 (cal)-mol-'K-? = 1.986 (Btu)(lb mole)'(R)-1 -1 0.7302 (ft)* (atm) (lb mol)--(R)-= 10.73 (ft) (psia) (Ib mol)--(R)-1 1545 (ft) (lbf) (lb mol)- (R) -1 = Calculate compressibility (7 and the molar volume (V) for nitrogen trifluoride for the following condition. (For nitrogen trifluoride, Tc= 234 K, Pc = 44.6 bar, and w = 0.126.) NOTE: This is a multi-part question. Once an answer is submitted, you will be unable to return to this part. Consider nitrogen trifluoride at 300 K and 95 bar and use the Redlich/Kwong equation. The molar volume is cm3.mol-? The compressibility is Calculate compressibility (7 and the molar volume (V for nitrogen trifluoride for the following condition. (For nitrogen trifluoride, Tc= 234 K, Pc = 44.6 bar, and w = 0.126.) NOTE: This is a multi-part question. Once an answer is submitted, you will be unable to return to this part. Consider nitrogen trifluoride at 300 K and 95 bar and use the Soave/Redlich/Kwong equation. The molar volume is cm3.mol-? The compressibility is Values of the Universal Gas Constant R = 8.314 J-mol-K-1 = 8.314 m.Pa mol-1.K-1 = 83.14 cm.bar-mol-?.K-1 = 8314 cm.kPa.mol-K-1 82.06 cm. (atm).mol-'K-' = 62, 356 cm (torr).mol-K- 1.987 (cal)-mol-'K-? = 1.986 (Btu)(lb mole)'(R)-1 -1 0.7302 (ft)* (atm) (lb mol)--(R)-= 10.73 (ft) (psia) (Ib mol)--(R)-1 1545 (ft) (lbf) (lb mol)- (R) -1 = Calculate compressibility (7 and the molar volume (V) for nitrogen trifluoride for the following condition. (For nitrogen trifluoride, Tc= 234 K, Pc = 44.6 bar, and w = 0.126.) NOTE: This is a multi-part question. Once an answer is submitted, you will be unable to return to this part. Consider nitrogen trifluoride at 300 K and 95 bar and use the Redlich/Kwong equation. The molar volume is cm3.mol-? The compressibility is Calculate compressibility (7 and the molar volume (V for nitrogen trifluoride for the following condition. (For nitrogen trifluoride, Tc= 234 K, Pc = 44.6 bar, and w = 0.126.) NOTE: This is a multi-part question. Once an answer is submitted, you will be unable to return to this part. Consider nitrogen trifluoride at 300 K and 95 bar and use the Soave/Redlich/Kwong equation. The molar volume is cm3.mol-? The compressibility is