Iron ore is reduced to pure iron by smelting, during which the iron (III) oxide in the ore reacts with carbon monoxide gas, like this: Fe,0,() + 3C0 (g) → 2Fe(s)+3CO,(g) )+3CO (g) -> Suppose an engineer decides to study the rate of this reaction. He prepares four reaction vessels with 174.0 g of solid iron (III) oxide and 11.6 g of carbon monoxide gas each. The volume and temperature of each vessel is shown in the table below. Arrange the reaction vessels in decreasing order of initial rate of reaction. In other words, select a "1" next to the vessel in which the engineer can reasonably expect the initial rate of reaction to be highest, a "2" next to the vessel in which the initial rate of reaction would be next highest, and so on. vessel volume temperature initial rate of reaction A 2.0 L 1100. °C 2.0 L 1200. °C ? 4.0 L 1100. °C 4.0 L 1000. °C

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Chapter1: Chemical Foundations
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Iron ore is reduced to pure iron by smelting, during which the iron (III) oxide in the ore reacts with carbon monoxide gas, like this:
Fe,0,() + 3C0 (g) → 2Fe(s)+3CO,(g)
)+3CO (g)
->
Suppose an engineer decides to study the rate of this reaction. He prepares four reaction vessels with 174.0 g of solid iron (III) oxide and 11.6 g of carbon
monoxide gas each. The volume and temperature of each vessel is shown in the table below.
Arrange the reaction vessels in decreasing order of initial rate of reaction. In other words, select a "1" next to the vessel in which the engineer can reasonably
expect the initial rate of reaction to be highest, a "2" next to the vessel in which the initial rate of reaction would be next highest, and so on.
vessel volume temperature
initial rate of
reaction
A
2.0 L
1100. °C
2.0 L
1200. °C
?
4.0 L
1100. °C
4.0 L
1000. °C
Transcribed Image Text:Iron ore is reduced to pure iron by smelting, during which the iron (III) oxide in the ore reacts with carbon monoxide gas, like this: Fe,0,() + 3C0 (g) → 2Fe(s)+3CO,(g) )+3CO (g) -> Suppose an engineer decides to study the rate of this reaction. He prepares four reaction vessels with 174.0 g of solid iron (III) oxide and 11.6 g of carbon monoxide gas each. The volume and temperature of each vessel is shown in the table below. Arrange the reaction vessels in decreasing order of initial rate of reaction. In other words, select a "1" next to the vessel in which the engineer can reasonably expect the initial rate of reaction to be highest, a "2" next to the vessel in which the initial rate of reaction would be next highest, and so on. vessel volume temperature initial rate of reaction A 2.0 L 1100. °C 2.0 L 1200. °C ? 4.0 L 1100. °C 4.0 L 1000. °C
Expert Solution
Step 1

The above question involves the fundamentals of chemical kinetics.

The concentration terms are not used in this reaction.

The deciding factor therefore becomes the partial pressure.

 

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