WebMar 13, 2024 · 2Al + 3O2 → 2Al2O3 We need THREE moles of oxygen for every TWO moles of aluminum to produce TWO moles of aluminum oxide. We have 1.60 mol of Al and 1.50 mol O2, so O2 is the limiting reagent, and the maximum amount of aluminum oxide that could be produced is 1.50mol O2 ⋅ ( 2 3)( Al2O3 O2) = 1.0mol Al2O3 Answer link WebQuestion: In a reaction chamber, 3.0 moles of aluminum is mixed with 5.3 moles Cl 2 2 and reacts. The reaction is described by the following balanced chemical equation. 2Al+3Cl2 …
Worked example: Calculating amounts of reactants and products
WebSep 3, 2024 · Balance the following unbalanced equation and determine how many moles of \ce {H2O} are produced when 1.65 mol of NH 3 react: \ce {NH3 + O2 → N2 + H2O} … WebIf this oxide layer is damaged or removed, the fresh surface of aluminum reacts with oxygen in the air. Aluminum can burn in oxygen dazzling white flame to form aluminum oxide … ct201843
4.4: Determining the Limiting Reactant - Chemistry LibreTexts
WebQuestion: Aluminum is a reactive metal. It reacts with oxygen to form aluminum oxide as shown below. 4 Al(s) + 3 O (g) → 2 Al O (s) I. When one mole of aluminum reacts with excess oxygen how many moles of aluminum oxide will be produced? II. When one mole of oxygen reacts with excess aluminum how many moles of aluminum oxide will be … WebMar 29, 2024 · Answer: For 1 moles Aluminium we need 3.0 / 2 = 1.5 moles Chlorine gas (Cl2) Option C is correct Explanation: Step 1: data given Aluminium = Al (s) Chlorine gas = Cl2 (g) Step 2: The balanced equation 2 Al (s) + 3 Cl2 (g) → 2 AlCl3 (s) Step 3: Calculate moles Cl2 For 2 moles Aluminium we need 3 moles chlorine gas to react, to product 2 … WebBecause of these phenomena, there exists an optimal non-stoichiometric composition for maximizing Isp of roughly 16% by mass, assuming the combustion reaction goes to completion inside the combustion chamber. The combustion time of the aluminium particles in the hot combustion gas varies depending on aluminium particle size and shape. ct201826