View the step-by-step solution to:

P atm 1.00000 Pv(L atm) 22.2643 0.66667 22.3148 0.50000 22.3397 0.33333 22.3654 0.25000 22.3775 0.16667 22.3897 Data for PV as a function of P for 1...

Hi, my question is in the attach files

P atm 1.00000 0.66667 0.50000 0.33333 0.25000 0.16667 Pv(L atm) 22.2643 22.3148 22.3397 22.3654 22.3775 22.3897 Data for PV as a function of P for 1 mol of CO2 at 0 C is given in the Table above. a. Plot PV as a function of P on a scale sufficiently expanded so that the experimental variations in PV can be observed on the graph. b. From the plot, determine the value of RT at 0 C. c. The plot follows the equation, PV = RT + BP where B is an empirical constant. Determine the value of B. d. On the same sheet plot PV versus P for an ideal gas. e. Calculate the value of PV at 0.90000 atm for 1 mol of CO2 at 0 C using the equation determined in c. above. What would be the percentage error made if you used the ideal gaslaw to calculate PV at 0.90000 atm for 1 mol of CO2 at 0 C ? f. Repeat the calculation in e. but at P = 90.000 atm. Comment on any difference in the percentage error for the two calculations.
Background image of page 1
Sign up to view the entire interaction

Top Answer

Here is the answer... View the full answer

Chem1.jpg

Sign up to view the full answer

Why Join Course Hero?

Course Hero has all the homework and study help you need to succeed! We’ve got course-specific notes, study guides, and practice tests along with expert tutors.

-

Educational Resources
  • -

    Study Documents

    Find the best study resources around, tagged to your specific courses. Share your own to gain free Course Hero access.

    Browse Documents
  • -

    Question & Answers

    Get one-on-one homework help from our expert tutors—available online 24/7. Ask your own questions or browse existing Q&A threads. Satisfaction guaranteed!

    Ask a Question
Ask a homework question - tutors are online