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Electrometallurgy

reaction CaCO...

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reaction CaCO3(s) CaO(s) +CO2(g)(Kc= 0.5 molL-1), the maximum moles of CO2(g)formed at equlibrium in 5 L container is

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K_{p}

of an equilibrium

C a C O_{3} (s) ⇌ C a O (s) + C O_{2} (g)

29^{0} C

then the moles of CaO formed if excess

C a C O_{2} (S)

is being placesd in a 1 L of closed container containing

C O_{2}

gas at 0.5 atm pressure at same temperature is:

K_{P}

of an equilibrium

C a C O_{3} (s) ⇌ C a O (s) + C O_{2} (g)

20^{o} C

then the moles of CaO formed if excess

C a C O_{3} (s)

is being placed in a 1 lt of closed container containing

C O_{2}

gas at 0.5 atm pressure at same temperature is:

Q. Equilibrium constant

K_{p}

for the reaction

C a C O_{3 (s)} ⇌ C a O_{(s)} + C O_{2 (g)}

8.21

727^{0}

10

C a C O_{3 (s)}

10

L container, what is the weight (in gm) of CaO formed at equilibrium.

C a C O_{3}

is taken in one litre container which on heating decomposes according to the equation

C a C O_{3} (s) \to C a O (s) + C O_{2} (g)

K_{P}

for the reaction is 1 atm at

27^{C}

. Then the maximum amount of CaO that can be produced in this reaction is

Q. For the following reaction,

1 g

C a {C O}_{3}

5 L

C a {C O}_{3} (s) ⟶ C a O (s) + {C O}_{2} (g)

K_{p} = 1.16

1073 K

, then percentage dissociation of

C a {C O}_{3}

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