For the reaction shown, calculate how many moles of NH3 form when each amount of reactant completely reacts.
3N2H4(l)→4NH3(g)+N2(g)
Express answer in 2 significant figures
A. 4.8 molN2H4
Express answer in 3 significant figures
b. 2.23 molN2H4
Express answer in 2 significant figures
c. 6.1×10−2molN2H4
3 significant figures
d. 9.10×107molN2H4
For the reaction shown, calculate how many moles of NH3 form when each amount of reactant...
Calculate how many moles of NH3 form when each quantity of reactant completely reacts according to the equation: 3N2H4(l)→4NH3(g)+N2(g) 66.8 g N2H4 Express your answer using three significant figures. BrO2−BrO2− Draw the molecule by placing atoms on the grid and connecting them with bonds. Include all lone pairs of electrons and formal charges.
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For the reaction shown, calculate how many moles of NO2 form when each amount of reactant completely reacts. 2N2O5(g)→4NO2(g)+O2(g) Part A 1.4 mol N2O5 Part B 5.6 mol N2O5 Part C 12.5 g N2O5 Part D 1.75 kg N2O5
You may want to reference (Pages 141-145) Section 4.2 while completing this problem. Calculate how many moles of NH3 form when each quantity of reactant completely reacts according to the equation 3 N2H4(l) → 4 NH3(g)+N2(g) Part A 2.5 moles N2H4Part B 3.55 mol N2H4 Part C 61.3 g N2H4 Part D 4.58 kg N2H4
For the reaction shown, calculate how many moles of each product form when the given amount of each reactant completely reacts. Assume that there is more than enough of the other reactant. 2PbS(s)+3O2(g)→2PbO(s)+2SO2(g) 1) 2.8 mol O2 . . . ? mol PbO 2) ? mol SO2 3) 6.0 mol O2 . . . ? mol PbO 4) ? mol SO2
Calculate how many moles of NO2 form when each quantity of reactant completely reacts. 2N2O5(g)→4NO2(g)+O2(g) 1. 2.9 mol N2O5 Express your answer using two significant figures. 2. 7.0 mol N2O5 Express your answer using two significant figures. 3. 16.6 g N2O5 Express your answer using three significant figures. 4. 2.39 kg N2O5 Express your answer using three significant figures.
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