At 0 ⁰C, each cubic centimeter of a 1.0-L flask contains 5.0 × 10-2 mol of N2, 1.5 × 102 mg O2, and 5.0 × 1018 molecules of NO. What is the partial pressure of each gas, and what is the total pressure in the flask?
a. 3400000 atm (total pressure)
b. 1.2 atm
c. 110 atm
d. 1.4 atm
e. 1.1 atm
f. 3400000 atm
g. 0.11 atm
h. 1100 atm
i. 1200 atm
j. 0.19 atm
At 0 ⁰C, each cubic centimeter of a 1.0-L flask contains 5.0 × 10-2 mol of...
A 3.00 L flask containing 2.0 mol of O2 and 1.0 mol of N2 is in a room that is at 22.0˚C. a. What is the total pressure in the flask? b. What fraction of the total pressure in the flask is due to N2? c. If the temperature of the flask is lowered, what happens to the pressure inside the flask? d. On a molecular level, explain why the pressure changes as you predicted in part (c). e. If...
due tomorrow please help At 298 K, a 5.0-L flask contains 0.15 mol of O, and 0.22 mol of N. Calculate the partial pressure of N2 inside the container. (note: the ideal gas constant is 0.0821 L atm/mol K) (4 points)
11. A 25 L flask at 25°C contains 0.75 mol of N2, 0.50 mol of O2 and 1.25 mol of CO. What is the total pressure? e) 500 atm a) 0.0082 atm b) 2.4 atm c) 21 atm d) 250 atm
A 22.4 L container at 0 °C contains 0.27 mol N2, 0.19 mol O2, 0.42 mol He, and 0.050 mol CO2. What are the partial pressures of each of the gases in atm, torr, and bar
PLEASE HELP WITH ENTIRE... 2: Consider the dimerization of C4H6: 2 C4H6 --> C8H12 for which the following data re collected: time (sec) [C4H6] (M) 0 1.00x10-2 1600 5.04x10-3 3200 3.37x10-3 4800 2.53x10-3 6200 2.08x10-3 A: Using empirical kinetics methods, determine the order of the reaction rate law. a 2nd order b 1st order c 0th order d The order can not be determined from this data. B: Based on the data above, calculate the concentration of C4H6 at 7,885...