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7) Given the following equation: 2 H₂+02→ 2 H₂O If 8 g of hydrogen reacts completely with 64 g of oxygen, what will be the mass of water formed? Show all your work.

7) Given the following equation: 2 H₂+02→ 2 H₂O If 8 g of hydrogen reacts completely with 64 g of oxygen, what will be the mass of water formed? Show all your work.

Chemistry: Principles and Reactions
Chemistry: Principles and Reactions
8th Edition
ISBN:9781305079373
Author:William L. Masterton, Cecile N. Hurley
Publisher:William L. Masterton, Cecile N. Hurley
Chapter4: Reactions In Aqueous Solution
Section: Chapter Questions
Problem 25QAP: Consider the following generic equation: H+(aq)+ B(aq)HB(aq)For which of the following pairs would...
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Please help me with the question 7, 8, 9. 

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7) Given the following equation: 2 H₂ + 02 2 H₂O If 8 g of hydrogen reacts completely with 64 g of oxygen, what will be the mass of water formed? Show all your work. 8) On mixing two aqueous solutions, you observe from the products that a neutralization reaction has occurred. The equation and results below illustrate this chemical reaction. A(aq) + B(aq) →→ C(aq) + D(1) 35 g + xg→ 75 g + 56 g Apply the Law of Conservation of Mass to find the amount of reactant B that must have been present. Show all your work. 9) The reaction caused by the burning of butane in air is represented by the following equation: 2 C4H₁0+13 Oz→8 CO2+10 H₂O + Energy During a laboratory experiment, you react 29 g of butane (C4H10) in the presence of dioxygen (0₂). You observe that 88 g of carbon dioxide (CO₂) and 45 g of water vapour (H₂O) form. What mass of oxygen did you use in this experiment? Show all your work
Transcribed Image Text:7) Given the following equation: 2 H₂ + 02 2 H₂O If 8 g of hydrogen reacts completely with 64 g of oxygen, what will be the mass of water formed? Show all your work. 8) On mixing two aqueous solutions, you observe from the products that a neutralization reaction has occurred. The equation and results below illustrate this chemical reaction. A(aq) + B(aq) →→ C(aq) + D(1) 35 g + xg→ 75 g + 56 g Apply the Law of Conservation of Mass to find the amount of reactant B that must have been present. Show all your work. 9) The reaction caused by the burning of butane in air is represented by the following equation: 2 C4H₁0+13 Oz→8 CO2+10 H₂O + Energy During a laboratory experiment, you react 29 g of butane (C4H10) in the presence of dioxygen (0₂). You observe that 88 g of carbon dioxide (CO₂) and 45 g of water vapour (H₂O) form. What mass of oxygen did you use in this experiment? Show all your work
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