The decomposition reaction of carbon disulfide, CS, to carbon monosulfide, CS, and sulfur is first order with k = 2.8 x 10-75-1 at 1000°C. CS, - → CS + S (a) What is the half-life of this reaction at 1000°C? (b) How many days would pass before a 2.00-gram sample of CS, had decomposed to the extent that 0.75 gram of T. CS, remained? (c) Refer to part (b). How many grams of CS would be present after this length of time? (d) How much of a 2.00-gram sample of CS, would remain after 45.0 days?
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parts a & b (34.) The decomposition reaction of carbon disulfide, CS, to carbon monosulfide, CS, and sulfur is first order with k = 2.8 x 10-75-1 at 1000°C. CS, - → CS + S (a) What is the half-life of this reaction at 1000°C? (b) How many days would pass before a 2.00-gram sample of CS, had decomposed to the extent that 0.75 gram of T. CS, remained? (c) Refer to part (b). How many grams of CS would...
The decomposition reaction of carbon disulfide, CS, to carbon monosulfide, CS, and sulfur is first order with k = 2.8 x 10-75-1 at 1000°C. CS, - → CS + S (a) What is the half-life of this reaction at 1000°C? (b) How many days would pass before a 2.00-gram sample of CS, had decomposed to the extent that 0.75 gram of T. CS, remained? (c) Refer to part (b). How many grams of CS would be present after this length...
Resources Give Hint Check Ans n2 of 5 > Carbon disulfide is prepared by heating sulfur and charcoal. The chemical equation is S (8) + C(s) - CS (8) Ke = 9.40 at 900 K How many grams of CS (8) can be prepared by heating 9.30 mols, (g) with excess carbon in a 6.15 L reaction vessel held at 900 K until equilibrium is attained? 1 mass of CS, (g): General Chemistry | Publisher: Un about us Careers Privacy...
Carbon disulfide is prepared by heating sulfur and charcoal. The chemical equation is S2(g) + C(s) = CS (8) K = 9.40 at 900 K How many grams of CS, (g) can be prepared by heating 17.8 mol S. (g) with excess carbon in a 7.30 L reaction vessel held at 900 K until equilibrium is attained? mass of CS,(g):
Carbon disulfide is prepared by heating sulfur and charcoal. The chemical equation is S() + C(s) - 0S,(8) Ke-9.40 at 900 K How many grams of CS,(s) can be prepared by heating 19.0 mol S, () with excess carbon in a 9.00 L reaction vessel held at 900 K until equilibrium is attained? mass of CS,(8):
Carbon disulfide is prepared by heating sulfur and charcoal. The chemical equation is S2(g) + C(s) = CS, (g) Kc = 9.40 at 900 K How many grams of CS, (g) can be prepared by heating 15.5 mol S, (g) with excess carbon in a 7.40 L reaction vessel held at 900 K until equilibrium is attained? mass of CS2(g): g At a certain temperature, the Kp for the decomposition of H. S is 0.752. HS(g) =H2(g) + S(g) Initially,...
Carbon disulfide is prepared by heating sulfur and charcoal. The chemical equation is How many grams of CS2(g) can be prepared by heating 10.8 moles of S2(g) with excess carbon in a 5.30 L reaction vessel held at 900 K until equilibrium is attained? rbon disulfide is prepared by heating sulfur and charcoal. The chemical equation is 9.40 at 900 K CS How many grams of g) can be prepared by heating 10.8 moles of S2(g) with excess carbon in...
Carbon disulfide is prepared by heating sulfur and charcoal. The chemical equation is S2(g) + C(s) = CS (8) K. = 9.40 at 900 K How many grams of CS2(g) can be prepared by heating 17.9 mol S2(g) with excess carbon in a 7.90 L reaction vessel held at 900 K until equilibrium is attained?
During a laboratory experiment, a 3.81-gram sample of NaHCO3 was thermally decomposed. In this experiment, carbon dioxide and water vapors escape and are combined to form carbonic acid. After decomposition, the sample weighed 2.86 grams. Calculate the percentage yield of carbonic acid for the reaction. Describe the calculation process in detail. NaHCO3 → Na2CO3 + H2CO3
Carbon disulfide is prepared by heating sulfur and charcoal. The chemical equation is S2(g) + C(s) = CS, (g) Kc = 9.40 at 900 K How many grams of CS2(g) can be prepared by heating 11.4 mol S2(g) with excess carbon in a 5.15 L reaction vessel held at 900 K until equilibrium is attained? mass of CS2(g): bun