1. Calculate the total pressure (in atm to 2 sf) in a container with 616 torr N₂, 104 torr O₂, and 40. torr CO₂.
2. Calculate the volume (in L to 2 sig figs) of 15.735 g CO₂ gas if it is pressurized to 2.0 atm at 0.0°C.

3. Calculate the pressure (in atm to 2 sig figs) of a balloon (initially at 25.0°C and 0.98 atm) after it is submerged into liquid nitrogen to a temperature of -196.0°C.

4. Will the following conditions increase the solubility of the gas oxygen (O₂) in solution (y/n)?

   1. An increase the temperature of the solution
   2. Replacing water with blood containing hemoglobin
   3. A decrease in the pressure of the room in which the water and N₂ are located (ie, try the experiment on a mountain top instead of at sea level).
      

      5. Use table 6.1 below: The vapor pressure of water at various temperatures to answer the questions below.

      a. Water boils at sea level (P_atm = 760 torr) at 100°C.  Estimate the temperature (in °C) at which water boils in Johnstown if the atmospheric pressure (P_atm) is 701 torr.
      b. If you hang wet sheets outside on a clothesline on a sunny winter day when the temperature is 0°C, they will eventually dry.  Explain why using the table above.
      6. 
   4. Calculate the molecules of gas (to 2 sig figs) in a 0.75 L container that has a pressure of 814 mmHg at a temperature of 315 K.
      
      

      T (°C)	Pvp (mmHg)	T (°C)	Pvp (mmHg)	T (°C)	Pvp (mmHg)	T (°C)	Pvp (mmHg)
      -10	2.15	50	92.51	92	566.59	97.5	694.47
      0	4.58	60	149.38	93	588.24	98	707.20
      10	9.21	70	233.17	94	610.59	98.5	720.12
      20	17.54	80	354.53	95	633.64	99	733.25
      30	31.82	90	525.27	96	657.41	99.5	750.93
      40	55.32	91	545.60	97	681.93	100	760.00