A 2.00 L flask containing 0.600 atm of gas A is connected to a 4.00 L flask containing 0.600 atm of gas B, after which the valve between the flasks is opened so that the gases can mix and react according to the following reaction equation. If the theoretical yield is produced at constant temperature, the total pressure in the combined flasks should be...?
2A(g) + 3B(g) → A2B3(g)
(1) 0.100 atm (2) 0.200 atm (3) 0.300 atm (4) 0.400 atm (5) 0.500 atm
I keep getting the answer .4 atm but i know that the correct answer is .2 atm. An explanation would be helpful. Thanks in advance!
A 2.00 L flask containing 0.600 atm of gas A is connected to a 4.00 L...
A sealed 1.00 L flask is charged with 0.400 mol of A and 0.800 mol of B. At equilibrium there are 0.600 mol of C present. Using an ICE chart determine [B] in mol/L at equilibrium. A(g) + B(g) = 2 C(9) 0.250 M 0.500 M 0.100 M 0.200 M 0.300 M Next
Question 1 1 pts A 1.50L glass flask contains Ar gas at a pressure of 745 torr. Nitrogen (N2) gas is added to this container and the pressure was measured to be 875 torr. What is now the partial pressure of N2 gas in this container? Use this information to answer Q2-5. Flask A is a 1.50 L glass flask containing Ar gas at a pressure of 652 torr. Flask B is a 2.50 L glass flask containing He gas...
The stopcock connecting a 1.66 L bulb containing nitrogen gas at a pressure of 9.13 atm, and a 3.77 L bulb containing oxygen gas at a pressure of 4.39 atm, is opened and the gases are allowed to mix. Assuming that the temperature remains constant, the final pressure in the system is atm. A mixture of helium and hydrogen gases is maintained in a 9.58 L flask at a pressure of 2.41 atm and a temperature of 55 °C. If...
The stopcock connecting a 1.12 L bulb containing helium gas at a pressure of 6.28 atm, and a 2.32 L bulb containing carbon dioxide gas at a pressure of 3.11 atm, is opened and the gases are allowed to mix. Assuming that the temperature remains constant, the final pressure in the system is atm.
The stopcock connecting a 1.22 L bulb containing helium gas at a pressure of 3.41 atm, and a 6.67 L bulb containing Xenon gas at a pressure in the system is _______atm. Use the References to access important values if needed for this question. The stopcock connecting a 1.22 L bulb containing helium gas at a pressure of 3.41 atm, and a 6.67 L bulb containing xenon gas at a pressure of 3.90 atm, is opened and the gases are...
The stopcock connecting a 3.86 L bulb containing oxygen gas at a pressure of 6.50 atm, and a 6.74 L bulb containing helium gas at a pressure of 4.26 atm, is opened and the gases are allowed to mix. Assuming that the temperature remains constant, the final pressure in the system is atm Submit Answer Retry Entire Group 9 more group attempts remaining
The valve is opened between a 10. L tank containing a gas at 7.0 atm and a 15 L tank containing a gas at 10. atm. What is the final pressure in the tanks?
1- A mixture of hydrogen and argon gases, in a 8.69 L flask at 77 °C, contains 0.477 grams of hydrogen and 7.10 grams of argon. The partial pressure of argon in the flask is ____ atm and the total pressure in the flask is ____ atm. 2- A mixture of methane and carbon dioxide gases is maintained in a 7.86 L flask at a pressure of 1.93 atm and a temperature of 39 °C. If the gas mixture contains...
M M) The stopcock connecting a 4.21 L bulb containing hydrogen gas at a pressure of 5.26 atm, and a 2.41 L bulb containing krypton gas at a pressure of 1.56 atm, is opened and the gases are allowed to mix. Assuming that the temperature remains constant, the final pressure in the system is atm
0.600 L of AR at 1.20 atm and 227 degree C is mixed with 0.200 L of O_2 at 501 torr and 127 degree C in a 400-mL flask at 27 degree C. What is the pressure in the flask? How many g of potassium chlorate decompose to potassium chloride and 638 mL of O_2 at 128 degree C and 752 torr? 2KCl)_2(s) rightarrow 2LCl(s) + 3O_2(g) A mixture of 5.50 g of He, 15.0 g of Ne, and 35.0...