A sample of CaCO3(s) is introduced into a sealed container of volume 0.668 L and heated...
A sample of CaCO3(s) is introduced into a sealed container of
volume 0.668 L and heated to 1000 K until equilibrium is reached.
The Kp for the reaction
CaCO3(s)⇌CaO(s)+CO2(g)
is 3.7×10−2 at this temperature.
1. Calculate the mass of CaO(s) that is present at equilibrium.
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A sample of CaCO3(s) is introduced into a sealed container of
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When limestone (solid CaCO3) is heated, it decomposes into lime (solid CaO) and carbon dioxide gas. This is an extremely useful industrial process of great antiquity, because powdered lime mixed with water is the basis for mortar and concrete — the lime absorbs CO2 from the air and turns back into hard, durable limestone. Suppose some calcium carbonate is sealed into a limekiln of volume 750.L and heated to 770.0°C When the amount of CaCO3 has stopped changing, it is...
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CaCO3(s) = Cao (s)+CO2 (g) When heated strongly, solid calcium carbonate decomposes to produce solid calcium oxide and carbon dioxide gas, as represented by the equation above. A 2.0 mol sample of CaCO3(s) is placed in a rigid 100. L reaction vessel from which all the air has been evacuated. The vessel is heated to 898°C at which time the pressure of CO2(g) in the vessel is constant at 1.00 atm, while some CaCO3(s) remains in the vessel. a. Calculate...
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When limestone (solid CaCO3) is heated, it decomposes into lime (solid CaO) and carbon dioxide gas. This is an extremely useful industrial process of great antiquity, because powdered lime mixed with water is the basis for mortar and concrete - the lime absorbs CO2 from the air and turns back into hard, durable limestone. Suppose some calcium carbonate is sealed into a limekiln of volume 250. L and heated to 870.0 °C. When the amount of CaCO3 has stopped changing,...
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