Given that R=1.987 cal/mol and T=300K, calculate the equilibrium constant for a reaction with G'= -7.3 kcal/mol
Given that R=1.987 cal/mol and T=300K, calculate the equilibrium constant for a reaction with G'= -7.3...
Calculate the average kinetic energy of a gas at 300k in units of J kJ/mol Cal/mol eV meV
Calculate the equilibrium constant of the reaction CO(g) + H2(g) ⇌ H2CO(g) given that for the production of liquid formaldehyde ΔrG< = +28.95 kJ mol−1 at 298 K and that the vapour pressure of formaldehyde is 1500 Torr at that temperature.
For the following reaction: A(g) + 2 B(g) ⇌ 2 C(g) Calculate the equilibrium constant K given the following information: The initial pressure of A is 2.755 bar and the initial pressure of B is 1.582 bar The equilibrium pressure of C is 0.460 bar B)For the following reaction: 2 A(g) + B(g) ⇌ C(g) Calculate the equilibrium constant K given the following information: The initial pressure of A is 2.772 bar and the initial pressure of B is 2.645...
For the following reaction: A(g) + 2 B(g) ⇌ 2 C(g) Calculate the equilibrium constant K given the following information: The initial pressure of A is 2.755 bar and the initial pressure of B is 1.582 bar The equilibrium pressure of C is 0.460 bar B)For the following reaction: 2 A(g) + B(g) ⇌ C(g) Calculate the equilibrium constant K given the following information: The initial pressure of A is 2.772 bar and the initial pressure of B is 2.645...
(10 points) The ideal gas constant R is 8.315 J/mol/K and an estimation of thermal energy is R times T, where T is temperature. At 300 K, please calculate the value of thermal energy in the unit of kcal/mol. 1 cal=4.18 J
The free energy (AG) for a reaction under a set of initial conditions/concentrations is -14.3 kcal/mol. The standard free energy (AG°) of this reaction is -6.0 kcal/mol. Given this information, what will be the value of the ratio of the reaction quotient (Q) to the equilibrium constant (Kea)? In other words, what will Q/Keg equal? Assume a temperature of 25°C. The value of the gas constant is 1.987 × 10-3 kcal/K-mol. To make your answer feasible to enter in Canvas,...
Data possibly uselul to all prouteS Im-1000 dm, R-0.082 (Latm)(mole K)-8.314 J/(mol K)- 1.987 cal/(mol ) Problem 1 (6 out of 30 points) The second order gas phase irreversible reaction: 2.4-B is carried out in an isothermal batch reactor containing 40 kg of catalyst and with an initial volume of 60-liter. The reactor is initially filled with equal molar quantities of A and inert I at 300 K and 2.5 atm. Calculate the time needed for the concentration of product...
please help 5. Calculate the equilibrium constant for the reaction, Glucose-1-phosphate + H2O + glucose + H2PO4 at pH 7.0 and 25°C (AG° = -20.9KJ/mol) (R = 0.008315 kJ/mol.K OR 0.001987 kcal/mol.K)
QUESTION 12 Given that AG for NH=-16.667999999999999 kJ/mol, calculate the equilibrium constant for the following reaction at 298 K: N2(8)+3 H2()2 NH3(g) Oa5.820000000000003 x 108 b8 349999999999996 x 102 Oc1.01 Od696999 998 x 10s O4.5099999999999998 x <1069
9. For the equilibrium shown below, Kci at 667 K is 0.0162. What is the value of Kc2 at 760 K? For this reaction, AH° = 3.03kcal/mol and R -1.987 x10 kcal/K. mol. kl I2 (g) 2HI (g) Н.(@) k-1 Дн" Т2 Kс LN T1 R Ke