3 attempts left Check my work Consider the following reaction: 2 NO(g) + Bry(9) – 2...
1.00 points 3 attempts left Check my work 2 Enter your answer in the provided box. The rate constant for the second-order reaction: 2NOBr(g) → 2NO(g) + Br2(g) is 0.800-s) at 10°C. Starting with a concentration of 0.86 M, calculate the concentration of NOBr Report problem Hint Solution Guided Solution after 67 s. Be sure to report your answer to the correct number of significant figures. References eBook &Resources
13 3 attempts left Check my work Be sure to answer all parts. .66 oints Equal volumes of 0.160 M AgNO3 and 0.190 M ZnCl2 solution are mixed. Calculate the equilibrium concentrations of Ag and Zn2+. eBook [Ag] = X 10 M (Enter your answer in scientific notation.) Print [Zn2+] = M References Sraw * Next > Hill < Prev e 13 of 15 9 here to search r ô DOLL
3 attempts left Check my work Be sure to answer all parts. Consider the following equilibrium at 439.9 K: NH,HS() SNH3(g) + H2S(g) The partial pressure of each gas is 0.256 atm. Calculate Kp and K, for the reaction. eBook Enter your answers in scientific notation. Print Kpx 10 References
points attempts left Check my work Enter your answer in the provided box. -1 The rate constant of a first-order reaction is 3.00 x 10 s 145 kJ/mol, calculate the temperature at which its rate constant is 7.65 x 10 S at 350.°C. If the activation energy is References eBook & Resources
3 attempts left Check my work Be sure to answer all parts. The pH of an acid solution is 6.11. Calculate the Ks for the monoprotic acid. The initial acid concentration is 0.010 M Enter your answer in scientific notation. eBook & Resources References Difficulty 2 Multipart Answer
Question 8 (of 20) value: 5.00 points 3 attempts left Check my work Enter your answer in the provided box. The rate constant of a first-order reaction is 3.85 x 10-4 s-1 at 350.0C If the activation energy is 129 kJ/mol, calculate the temperature at which its rate constant is 9.60 x10s-1 References eBook & Resources Multipart Answer
3 attempts left Check my work Be sure to answer all parts. The dissociation of molecular iodine into iodine atoms is represented as 126) = 2(g) At 1000 K, the equilibrium constant K for the reaction is 3.80 x 10 . Suppose you start with 0.0451 mol of I, in a 2.33-L flask at 1000 K. What are the concentrations of the gases at equilibrium? What is the equilibrium concentration of IZ? M What is the equilibrium concentration of I?...
please show work and answer them correctly 3 attempts left Check my work Click the "draw structure" button to launch the drawing utility. Draw one of the isomeric C2H,20 alcohols that can be prepared by lithium aluminum hydride reduction of a ketone. draw structure ... References eBook & Resources Multipart Answer Difficulty: Hard 3 attempts left Check my work Click the "draw structure" button to launch the drawing utility. Draw one of the isomeric C3H 20 alcohols that can be...
3 attempts left Check my work Be sure to answer all parts. Compound A decomposes according to the equation points A(g) = 2 B(g) + C (g) eBook A sealed 1.00-L container initially contains 1.83 x 10-3 mol of A(g), 1.26 x 10-3 mol of B(g), and 6.56 x 10-4 mol of C(g) at 100°C. At equilibrium, [A] is 2.10 x 10M. Find [B] and [C]. Print References Solve for the equilibrium concentrations of B and C. [B]eg * 10...
3 attempts left Check my work Be sure to answer all parts. Compound A decomposes according to the equation points A(g) = 2 B(g) + C (g) eBook A sealed 1.00-L container initially contains 1.81 x 10-3 mol of A(g), 1.23 x 10-3 mol of B(g), and 6.45 x 10-4 mol of C(g) at 100°C. At equilibrium, [A] is 2.06 x 10^M. Find [B] and [C]. Print References Solve for the equilibrium concentrations of B and C. [B]eg * 10...