A container encloses 33.1 g of CO2(g). The partial pressure of CO2 is 2.89 atm and the volume of the container is 31.5 L. What is the average, or root mean square, speed (in m/s) of the CO2 molecules in this container?
A container encloses 33.1 g of CO2(g). The partial pressure of CO2 is 2.89 atm and...
1) For this reaction: A(aq) ---> B(aq) the change in the standard free enthalpy is 3.39 kJ at 25 oC and 5.34 kJ at 45 oC. Calculate the value of this reaction's equilibrium constant at 75 oC. 2)A container encloses 31.5 g of CO2(g). The partial pressure of CO2 is 2.87 atm and the volume of the container is 31.0 L. What is the average, or root mean square, speed (in m/s) of the CO2 molecules in this container?
1a) For the reaction: A(aq) ---> B(aq) the change in the standard free enthalpy is 2.71 kJ at 25 oC and 4.89 kJ at 45 oC. Calculate the value of this reaction's equilibrium constant at 75 oC. 1b) A container encloses 35.0 g of CO2(g). The partial pressure of CO2 is 2.45 atm and the volume of the container is 29.8 L. What is the average, or root mean square, speed (in m/s) of the CO2 molecules in this container?
Please answer in full details. Question 1 : We have a container enclosing a mixture of N2(g) and O2(g). The total pressure is 3.97 atm. The temperature is 25.00 °C and the volume of the container is 17.0 L. If the mass of N2 in the container is 34.6 g, what is the partial pressure of O2 (in atm) within the container? Question 2 : The density of a sample of NH3(g) at a pressure of 1.00 atm is 0.901...
The density of a sample of NH3(g) at a pressure of 1.00 atm is 0.872 g/L. What is the root-mean-square speed (in m/s) of the molecules in this sample
The density of a sample of NH3(g) at a pressure of 1.00 atm is 0.872 g/L. What is the root-mean-square speed (in m/s) of the molecules in this sample?
Question 1 : For the reaction A(aq) ---> B(aq) the change in the standard free enthalpy is 3.37 kJ at 25 oC and 4.81 kJ at 45 oC. Calculate the value of this reaction's equilibrium constant at 75 oC. Question 2 : A container encloses 33.0 g of CO2(g). The partial pressure of CO2 is 2.44 atm and the volume of the container is 28.8 L. What is the average, or root mean square, speed (in m/s) of the CO2molecules...
A container with volume 1.78 L is initially evacuated. Then it is filled with 0.246 g of N2. Assume that the pressure of the gas is low enough for the gas to obey the ideal-gas law to a high degree of accuracy. Part AIf the root-mean-square speed of the gas molecules is 192 m/s, what is the pressure of the gas?
Consider a mixture of 2.00 g of helium and 10.0 g of xenon atoms in a container with a volume of 1 L. Assume that helium and xenon are ideal gases. (a) If the root mean square speed (vrms or urms in Chapter 9) of helium is 1500 m/s, what is the temperature of the gas? (b) Assuming that the helium and xenon are at the same temperature, what is the root mean squared speed of the xenon gas? (c)...
Question We have a container enclosing a mixture of Ny() and O/C). The total pressure is 3.60 mm. The temperature is 25.00 C and the volume of the container is 174 L. If the mass of N, in the container is 379 3. what is the partial pressure of O, Cinam) within the container? The density of a sample of NH3(g) at a pressure of 1.00 atm is 0.363 8L. What is the 100-mean-square spoed (in muk) of the molecules...
A container with volume 1.62 L is initially evacuated. Then it is filled with 0.293g of N2. Assume that the pressure of the gas is low enough for the gas to obey the ideal-gas law to a high degree of accuracy. If the root-mean-square speed of the gas molecules is 178 m/s, what is the pressure of the gas?