Time Remaining:02:39:43 1. Consider the balanced equation for the following reaction: 3LI2S(aq)+ 2Bi(NO3)3 (aq) 6LI...
Consider the following balanced equation: 3Li2S(aq) + 2Bi(NO3)3(aq) → 6LiNO3(aq) + Bi2S3(s) If 44.2 moles of Li2S(aq) and 36.2 moles of Bi(NO3)3(aq) are allowed to react to produce 64.6 moles of LiNO3(aq), what is the percent yield of the reaction?
Consider the following balanced equation: 3Li2S(aq) + 2Bi(NO3)3(aq) → 6LiNO3(aq) + Bi2S3(s) If 29.7 moles of Li2S(aq) and 25.4 moles of Bi(NO3)3(aq) are allowed to react to produce 44.2 moles of LiNO3(aq), what is the percent yield of the reaction?
Consider the following balanced equation: 3Li2S(aq) + 2Bi(NO3)3(aq) → 6LiNO3(aq) + Bi2S3(s) If 1.81×103 grams of Li2S(aq) reacts with an excess of Bi(NO3)3(aq), and the percent yield is 50.6%, how many grams of LiNO3(aq) will actually be produced?
Time Remaining:03:23 1. Consider the balanced equation for the following reaction: 3Fe2O3(s) + CO(g) + CO2(g) + 2Fe3O4(s) How much excess reactant remains in the reaction if 46.8 grams of Fe2O3 reacts with 22.4 grams of CO? 0.195 moles 0.702 moles 0.800 moles 0.267 moles 0.507 moles Use the slider to rate your confidence on this question 100 Not at all confident Very confident
eLearning Taking Pool 6 1. Consider the balanced equation for the following reaction: 130,() + 2C4H109) 8C02(0)+10H2O() Determine how much excess reactant remains in this reaction if 34.7 grams of O2 reacts with 91.6 grams of CH10 5.12 moles O 0.705 moles O 0.79 moles 0.12 moles 1.41 moles Use the slider to rate your confidence on this question. 100 Not at all confident Very confident save submit
eLearning Taking Pool 6 1. Consider the balanced equation for the following reaction: 302(g) + 2CH2OH() → 2C020) + 4H2011) Determine how much excess reactant remains in this reaction if 5.84 moles of Oz reacts with 1.23 moles of CH3OH. O 4.00 moles 0.62 moles 3.89 moles 0.92 moles O 1.95 moles Use the slider to rate your confidence on this question. 100 Not at all confident Very confident save submit
1. Consider the balanced equation for the following reaction: 302(g) + 2CH3OH() → 2CO2(g) + 4H2O(1) If 3.77 moles of O2 reacts with 2.66 moles of CH3OH, determine how much excess reactant remains in the reaction 1.33 moles 2.00 moles 0.15 moles 1.40 moles 2.66 moles Use the slider to rate your confidence on this question. 100 Not at all confident Very confident
1. Consider the balanced equation for the following reaction: 6HC(aq) + 2Al(s)-3H2(g)+ 2AICI3 (s) If the percent yield of H2(g) is 71.0% and 8.00 grams of H2(g) forms, determine the theoretical yield of H2(g) in moles 6.71 moles 5.59 moles 2.80 moles 8.39 moles 10.1 moles Use the slider to rate your confidence on this question. 100 Very confident Not at all confident Iros 55. 44 22F
Ling Pool 3 Time Remaining:04:34:08 1. Consider the unbalanced equation for the following reaction: H2O(l) + Mg3N2(aq) - MgO(s) + NH3(g) If 2.20 moles of H2O(l) reacts with an excess of Mg3N2(aq) and 0.823 moles of NH3(g) is formed, determine the percent yield of NH3(9). 34.7% 31.4% 56.0% 49.8% 47.6% Use the slider to rate your confidence on this question.
Taking Pool 7 Time Remaining:02:46:44 1. Consider the following balanced equation: 702(g) + 2C2H6(9) - 4CO2(g) + 6H20(1) If 34.8 moles of O2(g) and 17.7 moles of C2H (9) are allowed to react to produce 17.8 moles of H20(1), what is the percent yield of the reaction? 87.8% 66.6% 90.1% 59.7% 94.3% Use the slider to rate your confidence on this question 100 Not at all confident Very confident