Silicon tetrachloride can be prepared by heating silicon in chlorine gas. Si(s) + 2 Cl 2(g) → SiCl 4(l) In this experiment, 75.00 grams of Silicon and 45.75 grams of Chlorine are allowed to react. What is the limiting reactant?
Silicon tetrachloride can be prepared by heating silicon in chlorine gas. Si(s) + 2 Cl 2(g)...
Silicon tetrachloride (SiCl4) can be prepared by heating Si in chlorine gas: 2Cl2(g) + Si(s) → SiCl4(l) Calculate the number of moles of Cl2 required to form 0.463 moles of SiCl4. Assume excess Si. moles Cl2 Determine the moles of silicon required to form the amount of SiCl4 given above. moles Si
11.6 Silicon tetrachloride (SiC14) can be prepared by heating Si in chlorine gas: Si(s) + 2Cl2(8) SiCl4(1) In one reaction, 0.507 mol SiCl4 is produced. How many moles of molecular chlorine were used in the reaction? How many moles of Si?
chlorine gas can be
Chlorine gas can be prepared in the laboratory by the reaction of hydrochloric acid with manganese(V) oxide: 4HCr(aq) + MnO2(s) MnCl2(aq) +2H2O() + Cl2 → You add 39.1 g of MnO2 to a solution containing 44.3 g of HCi. (a) What is the limiting reactant? (b) What is the theoretical yield of Cl? Number R CI (c) If the yield of the reaction is 84.9%, what is the actual yield of chlorine? Number g Cl
Question 8 of 11> Chlorine gas can be prepared in the laboratory by the reaction of hydrochloric acid with manganese(IV) oxide. 4 HCl(aq)+ MnO2(s) MnCl, (aq) +2 H,O0) + Cl,(g) A sample of 34.7 g MnO, is added to a solution containing 42.1g HCl. What is the limiting reactant? MnO2 НС What is the theoretical yield of Cl,? theoretical yield: If the yield of the reaction is 81.7 % , what is the actual yield of chlorine? g CI, actual...
Check Answer uuestion 7 of 24 > Chlorine gas can be prepared in the laboratory by the reaction of hydrochloric acid with manganese(IV) oxide. 4 HCl(aq) + MnO,(s) —MnCl, (aq) + 2 H, 0(1) + Cl (9) A sample of 41.5 g Mno, is added to a solution containing 45.3 g HCI. What is the limiting reactant? O MnO2 OHCI What is the theoretical yield of Cl? theoretical yield: If the yield of the reaction is 84.3%, what is the...
Chlorine gas can be prepared in the laboratory by the reaction of hydrochloric acid with manganese(IV) oxide. 4 HCI(aq) + MnO2(s) MnClj(aq) + 2H20) +C2(g) A sample of 38.7 g MnO2 is added to a solution containing 41.3 g HC. What is the limiting reactant? O HCI O Mno, What is the theoretical yield of Cl2? theoretical yield: g Cl If the yield of the reaction is 78.9%, what is the actual yield of chlorine? actual yield: gC2
Chlorine gas...
Chlorine gas can be prepared in the laboratory by the reaction of hydrochloric acid with manganese(IV) oxide 4 HCl (aq)MnO2(s) MnCl2 (aq) 2H2O(C) + Cl2(g) A sample of 35.1 g MnO, is added to a solution containing 49.9 g HCI. What is the limiting reactant? O MnO, What is the theoretical yield of Cl,? theoretical yield: g Cl, What is the theoretical yield of Cl,? theoretical yield: g Cl2 If the yield of the reaction is 71.7%, what is the...
Problem 6: (Mass, Moles, Limiting Reactant, Yields: 15 points) Chlorine gas can be prepared in the laboratory by the reaction of hydrochloric acid with manganese(IV) oxide. 4 HCl(aq) + MnO2 (s) → _MnCl(aq) + 2 H2O(l) + Cl2(g) a. Balance the above equation (2.5 points) b. A sample of 39.5 g MnO2 is added to a solution containing 45.9 g HCl. Determine the limiting reactant (4 points). Circle your final answer (0.5 point). MnO2 is limiting HCI is limiting c....
Rion 1 of 3 > Chlorine gas can be prepared in the laboratory by the reaction of hydrochloric acid with manganese(IV) oxide. 4 HCl(aq) + Mn0,() — MnCl, (aq) + 2 H,0(1) + Cl,() A sample of 39.3 g Mno, is added to a solution containing 47.1 g HCI. What is the limiting reactant? Mno OHCI What is the theoretical yield of CI? theoretical yield: g Cl, If the yield of the reaction is 82.3%, what is the actual yield...
Question 5 (1 point) If (2.2191x10^1) g of silicon react with (1.77x10^1) g of chlorine gas to form silicon tetrachloride. What mass of silicon tetrachloride forms? Note: Your answer is absumed to be reduced to the highest power possible. Your Answer: Answer