Enter your answer in the provided box For the simple decomposition reaction ABC) A(g) +B(g) rate=...
1 attempts left Check my work Enter your answer in the provided box. For the simple decomposition reaction AB(g) → A(g) + B(g) rate = k[AB] and k = 0.25 L/mol's. How long will it take for [AB] to reach 1/3 of its initial concentration of 1.50 M? + = 8.00 S es
For the simple decomposition reaction AB(g) → A(g) + B(g) rate = k[AB]2 and k = 0.20 L/mol.s. If the initial concentration of AB is 1.50 M, what is [AB] after 18.8.
For the simple decomposition reaction AB(g) → A(g) + B(g) rate = k[AB]2 and k = 0.1 L/mol·s. If the initial concentration of AB is 1.50 M, what is [AB] after 14.0 s?
For the simple decomposition reaction below, rate = k[AB]2 and k = 0.50 L/mols. AB(g) A(g) + B(g) If the initial concentration of AB is 1.70 M, what is [AB] after 14.0 s?
For the simple decomposition reaction AB(g) → A(g) + B(g) rate = k[AB]2and k = 0.90 L/mol·s. How long will it take for [AB] to reach 1/3 of its initial concentration of 1.50 M? t = ___ s
Enter your answer in the provided box. The rate constant for the second-order reaction: 2NOBr(g) + 2NO(g) + Br2(g) is 0.80/( M s) at 10°С. Starting with a concentration of 0.86 M, calculate the concentration of NOBO after 67 s. L M
AB(g) → A(g) + B(g) rate = k[AB]2 and k = 0.20 L/mol·s. If the initial concentration of AB is 1.50 M, what is [AB] after 14.6 s?
AB(g) →A(g) + B(g) rate = k[AB]2 and k = 0.20 L/mol·s. If the initial concentration of AB is 1.50 M, what is [AB] after 11.9 s?
Enter your answer in the provided box. Remember to enter your answer to the correct number of significant figures. For the following reaction, the rate is 0.27 mol/(L·s) when [A]0 = [B]0 = 1.0 mol/L: A(g) + B(g)→ AB(g) If the reaction is first order in B and second order in A, what is the rate when [A]0 = 2.0 mol/L and [B]0 = 3.3 mol/L? PLEASE SHOW WORK
please help Enter your answer in the provided box. The rate constant for the second-order reaction: 2NOBr(g) right arrow 2NO(g) + Br2(g) Is 0.80(M . s) at 10 degree C starting with a concentration of 0.36 M, calculate the concentration of NOBr after 83 s.