For a reaction with ΔH∘=−25 kcal/mol and ΔS∘=0.05 kcalmol−1K−1, calculate the equilibrium constant at: (1.) 30 ∘C and (2.) 150 ∘C.
Express your answers using two significant figures separated by
a comma.
For a reaction with ΔH∘=−25 kcal/mol and ΔS∘=0.05 kcalmol−1K−1, calculate the equilibrium constant at: (1.) 30 ∘C and (2...
Part B calculate the equilibrium constant at: (1.) 30 °C and (2) 150 °C For a reaction with AH = -25 kcal/mol and AS -0.03 kcal mol-'K- Express your answers using two significant figures separated by a comma. . AEO O ? 2.4. 10.2.1 . 104 You have already submitted this answer. Enter a new answer No credit lost. Try again. Submit Previous Answers Request Answer
The change in enthalpy (AH) for a reaction is -35.7 kJ/mol. The equilibrium constant for the reaction is 1.4x109 at 298 K Part A What is the equilibrium constant for the reaction at 618 K? Express your answer using two significant figures. ΑΣφ ? K-
Part A Compute the equilibrium constant at 25° C for the reaction between Zn2 (aq) and Fe(s), which form Zn(s) and Fe2 (aq) Express your answer using two significant figures Submit Previous Answers Request Answer incorrect: One attempt remaining; Try Again
Part B please.
Part A Silver chloride is only slightly soluble in pure water at 25 C AgCI(s) Ag (ag)+CI (aq) K-1.8 x 10 1 Calculate the concentration of Ag and Cl in a solution that is saturated with AgCl e, the system is at equilibrium and there is still solid AgCl visible). Express your answers using two significant figures, separate your answers by a comma. [Ag+],[Cl-)- 1.3×10-5 1.3×10-5 mol Li Previous An Correct Part B The addition of ammonia...
Consider the reaction and associated equilibrium constant.
aA(g)⇌bB(g)Kc=2.0
A.) Find the equilibrium concentrations of A and B for
a = 1 and b = 1. Assume that the initial
concentration of A is 1.0 M and that no B is present at the
beginning of the reaction.
B.) Find the equilibrium concentrations of
A and B for a = 2 and b = 2. Assume that the
initial concentration of A is 1.0 M and that no B is present...
Consider the following reaction: A (g) = 2 B (g) Find the equilibrium partial pressures of A and B for each of the following different values of Kp. Assume that the initial partial pressure of B in each case is 1.0 atm and that the initial partial pressure of A is 0.0 atm. Make any appropriate simplifying assumptions. Part A Kp = 1.4 Enter your answers numerically separated by a comma. Express your answers using two significant figures. VO AJ...
A Review | Constants | Periodic Table You place 1.45 mol of NOCl(g) in a reaction vessel. Equilibrium at constant pressure is established with respect to the decomposition reaction Part C Calculate NOCI(8) = NO(g) + Cl2 (8) AGE and the degree of dissociation of NOCl in the limit that is very small at 350. K and a pressure of 1.50 bar. AH Substance (kJ · mol-1)(298 K) (kJ. mol-1)(298 K) NOCI(g) 51.7 66.1 NO(g) 91.3 87.6 Cl2 (g) 0...
part 1 Calculate the equilibrium constant at 184 °C for a reaction that has a standard enthalpy of reaction, ΔH° = 30.2 kJ/mol and an equilibrium constant, K = 0.0603 at 10.6 °C. R = 8.314472 J⋅mol−1⋅K−1. Report your answer to THREE significant figures. part 2 The standard enthalpy of reaction (i.e. ΔH°) for a particular reaction is −31.7 kJ/mol. At 24.9 °C the equilibrium constant for the reaction is 3.96 × 10−2. Calculate the temperature (in °C) at which...
The equilibrium constant for the reaction 2 NO(g) + Br2 = 2 NOBr(9) is Ke = 2.2 x 10" at certain temperature. K = 45 Previous Answers Correct Correct answer is shown. Your answer 45.45 was either rounded differes significant figures than required for this part. Part 6 Calculate K. for NOBr(g) - NO(g) + Bra(g). Express your answer using two significant figures. A = 0 ?
Part A) A certain first-order reaction has a rate constant of 2.40×10−2 s−1 at 25 ∘C. What is the value of k at 60 ∘C if Ea = 74.0 kJ/mol ? Express your answer using two significant figures. Part B) Another first-order reaction also has a rate constant of 2.40×10−2 s−1 at 25 ∘C. What is the value of k at 60 ∘C if Ea = 135 kJ/mol ? Express your answer using two significant figures.