6. Oxygen gas can be produced from the reaction of titanium (IV) oxide with bromine trifluoride according to: 3TIO2(s) + 4BRF3(1) → 3TİF4(s) + 2B12(1) + 302(g) If a 2.367 gram sample of impure TiO2 treated with BrF3 produces 0.143 grams of oxygen gas, what is the mass percent of TiO2 in the sample?
6. Oxygen gas can be produced from the reaction of titanium (IV) oxide with bromine trifluoride according to: 3TIO2(s) + 4BRF3(1) → 3TİF4(s) + 2B12(1) + 302(g) If a 2.367 gram sample of impure TiO2 treated with BrF3 produces 0.143 grams of oxygen gas, what is the mass percent of TiO2 in the sample?
Chemistry
10th Edition
ISBN:9781305957404
Author:Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCoste
Publisher:Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCoste
Chapter1: Chemical Foundations
Section: Chapter Questions
Problem 1RQ: Define and explain the differences between the following terms. a. law and theory b. theory and...
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My question is, are we starting with oxygen in this calculation because it is a limiting reactant? I understand how to solve this, I just want to be sure on why we are starting with oxygen. Since it is on the product side, can it still be a limiting reagent?
Transcribed Image Text:0.143 Imol Og 3mol TiOg 19.8789 = 0.3579TiOa
6. Oxygen gas can be produced from the reaction of titanium (IV) oxide with bromine
trifluoride according to:
3TİO2(s) + 4B1F3(1) → 3TİF4(s) + 2B12(1) + 302(g)
If a 2.367 gram sample of impure TiO2 treated with BrF3 produces 0.143 grams of oxygen
gas, what is the mass percent of T¡O2 in the sample?
2.367 Imol
79.878g
Find limiting reactant
=0.02963mol TiOg
%3D
0, O.143 Imol
Or
=D0.00447mol02
31.9989
3.
limiting
0,357
0JKi Imol Og 3mol TiOz 19.8189 = 0.357a TiQa
T.O
Oo3579 TiOa
0.143
x100
%3D
I mol Til2
31.99 8902 3mol Oa
2.367
3151%
/
7. Calculate the molarity of all jons pronont i
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