60. When tin comes in contact with the oxygen in the air, tin(IV) oxide, SnO2, is formed. Sn(s) + O2(g) - SnO2(s) A piece of tin foil, 8.25 cm X 21.5 cm X 0.600 (d = 7.28 g/cm³), is exposed to oxygen. (a) Assuming that all the tin has reacted, what is the mass of the oxidized tin foil? (b) Air is about 21% oxygen by volume (d = 1.309 g/L at 25°C, 1 atm). How many liters of air are required to completely react with the tin foil? mm %3D

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Chapter1: Chemical Foundations
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Problem 1RQ: Define and explain the differences between the following terms. a. law and theory b. theory and...
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When tin comes in contact with the oxygen in the air tin(IV) oxide, SnO2, is formed. A piece of tin foil, 8.25
cm x 21.5 cm x 0.600 mm (ρ= 7.28 g/cm3
), is exposed to oxygen.
a. Assuming that all the tin has reacted, what is the mass of the oxidized tin foil?
b. Air is about 21% oxygen by volume (ρ= 1.309 g/L at 25 °C, 1 atm). How many liters of air are
required to completely react with the tin foil?

60. When tin comes in contact with the oxygen in the air,
tin(IV) oxide, SnO2, is formed.
ygen ac-
SnO2(s)
(1)
en 3.914
Sn(s) + O2(g)
A piece of tin foil, 8.25 cm X 21.5 cm X 0.600 mm
(d% 3D7.28 g/cm³), is exposed to oxygen.
(a) Assuming that all the tin has reacted, what is the
mass of the oxidized tin foil?
(b) Air is about 21% oxygen by volume (d = 1.309 g/L
at 25°C, 1 atm). How many liters of air are required to
completely react with the tin foil?
to react
n0.8144
%3D
produce
Transcribed Image Text:60. When tin comes in contact with the oxygen in the air, tin(IV) oxide, SnO2, is formed. ygen ac- SnO2(s) (1) en 3.914 Sn(s) + O2(g) A piece of tin foil, 8.25 cm X 21.5 cm X 0.600 mm (d% 3D7.28 g/cm³), is exposed to oxygen. (a) Assuming that all the tin has reacted, what is the mass of the oxidized tin foil? (b) Air is about 21% oxygen by volume (d = 1.309 g/L at 25°C, 1 atm). How many liters of air are required to completely react with the tin foil? to react n0.8144 %3D produce
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