the decomposition of NOCL,2NOCl 2NO+Cl2 has k=9.3*10^-5 L mol^-1 s^-1 at 100C and k=1.0*10^-3 mol^-1s^-1 at...

The decomposition of NOCl: 2NOCl (g) <---> Cl2 (g) + 2NO (g) has an equilibrium constant...

The decomposition of NOCl: 2NOCl (g) <---> Cl2 (g) + 2NO (g) has an equilibrium constant of K=1.6*10^-5 at 35 degrees C. if the initial concentration of NOCl is 0.500M, what is the equilibrium concentration of NO? A. 1.00*10^-4M B. 2.00*10^-2M C. 1.00*10^-2M D. 2.3*10^-3M When sodium is added to the reaction vessel, it scavenges the chlorine gas in an exothermic reaction. What will the impact of adding sodium be on the equilibrium of the decomposition of NOCl? A. Shifts...

The reaction 2NOCl(g) 2NO(g) + Cl2(g) has an equilibrium constant Kp (in terms of pressures) at...

The reaction 2NOCl(g) 2NO(g) + Cl2(g) has an equilibrium constant Kp (in terms of pressures) at 300 °C of 0.180. Calculate the concentration of NO that will be present at 300 °C in equilibrium with NOCl (at a concentration of 1.89×10-2 mol L-1) and Cl2 (at a concentration of 7.00×10-3 mol L-1). [NO] =    mol L-1

at 300 K the reaction below obeys the rate law rate=k[NOCl]2 where k= 2.8x10-5 M-1* S-1...

at 300 K the reaction below obeys the rate law rate=k[NOCl]2 where k= 2.8x10-5 M-1* S-1 2NOCl ------> 2NO + Cl2 Suppose 1.0 mole of NOCl is introduced into a 2.0- liter container at 300 k. How much NOCl will remain after 30 minutes? the answer is 0.95 mol but how do you get this?

At 473 K, for the elementary reaction 2NOCl(g)k1⇌k−12NO(g)+Cl2(g) k1=7.8×10−2L/mols and k−1=4.7×102L2/mol2s A sample of NOCl is...

At 473 K, for the elementary reaction 2NOCl(g)k1⇌k−12NO(g)+Cl2(g) k1=7.8×10−2L/mols and k−1=4.7×102L2/mol2s A sample of NOCl is placed in a container and heated to 473 K. When the system comes to equilibrium, [NOCl] is found to be 0.60 mol/L . Find the concentration of NO. Find the concentration of Cl2.

The equilibrium 2NO(g)+Cl2(g)⇌2NOCl(g) is established at 500 K. An equilibrium mixture of the three gases has...

The equilibrium 2NO(g)+Cl2(g)⇌2NOCl(g) is established at 500 K. An equilibrium mixture of the three gases has partial pressures of 9.50×10−2 atm , 0.174 atm , and 0.27 atm for NO, Cl2, and NOCl, respectively. Part A Calculate Kp for this reaction at 500.0 K. Express your answer using two significant figures. Part B If the vessel has a volume of 5.80 L, calculate Kc at this temperature. Express your answer using two significant figures. .

1. For the reaction: 2NOCl(g) 2NO(g) + Cl2(g), Kc = 1.6 x 10− 5 . What...

1. For the reaction: 2NOCl(g) 2NO(g) + Cl2(g), Kc = 1.6 x 10− 5 . What are the equilibrium concentrations of each species if 1.0 mole of NOCl is initially placed in an empty 2.0 L flask? 2. A reaction vessel is charged with hydrogen iodide, which partially decomposes to molecular hydrogen and iodine: 2HI (g) H2(g) + I2(g): When the system comes to equilibrium at 425 °C, PHI = 0.708 atm and 2 2 P P H I =...

Temperature (K) k (s–1) 350    9.3 x 10–6 400 6.9 x 10–4 a. (6 pts)...

Temperature (K) k (s–1) 350    9.3 x 10–6 400 6.9 x 10–4 a. (6 pts) Calculate the activation energy (Ea) of this reaction in kJ/mol. b. (3 pts) What is the overall rate order of this reaction? c. (4 pts) Calculate the half-life (t1/2, in seconds) of this reaction at 350 K.

A certain first order reaction has k = 6.2 × 10‒5 s‒1 at 35 oC and...

A certain first order reaction has k = 6.2 × 10‒5 s‒1 at 35 oC and an activation energy of 108 kJ/mole. What is the numerical value of the specific rate constant, k, at 45 oC? A certain first order reaction has k = 9.3 × 10‒5 M‒1 s‒1 at 100 oC and k = 1.0 × 10‒3 M‒1 s‒1 at 130 oC. What is the numerical value of the activation energy in kJ/mol for this reaction?

The decomposition of hydrogen iodide, 2HI(g)= H2(g)+I2(g), has a rate constant of 9.51*10-9 L/mol*s at 500K...

The decomposition of hydrogen iodide, 2HI(g)= H2(g)+I2(g), has a rate constant of 9.51*10-9 L/mol*s at 500K and Ea of 176 kJ/mol. At what temperature will the rate constant be 1.10*10-5 L/mol*s?

Rate constants for the reaction NO2(g)+CO(g)?NO(g)+CO2(g) are 1.3M?1s?1 at 700 K and 23.0M?1s?1 at 800 K....

Rate constants for the reaction NO2(g)+CO(g)?NO(g)+CO2(g) are 1.3M?1s?1 at 700 K and 23.0M?1s?1 at 800 K. Part A What is the value of the activation energy in kJ/mol? Ea = 134   kJ/mol   SubmitMy AnswersGive Up Correct Part B What is the rate constant at 770K ? Express your answer using two significant figures. k =   /(M?s)