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Calculate the equilibrium concentration ratio of C to A if equimolar ratio of A and B were allowed to come to equilibrium at 300K. A(g)+B(g)⇔C(g)+D(g),ΔG∘=-830 cal.
12
Nov
Calculate the equilibrium concentration ratio of C to A if equimolar ratio of A and B were allowed to come to equilibrium at 300K. A(g)+B(g)⇔C(g)+D(g),ΔG∘=-830 cal. Calculate the equilibrium concentration ratio of C to A if equimolar ratio of A and B were allowed to come to equilibrium at 300K. A(g)+B(g)⇔C(g)+D(g) ΔG∘=-830 cal. November 12, [...]
Posted in: Chapter 5 - Chemical Equilibrium (Level 1 and Level 2) , N Awasthi Physical Chemistry ,
Tags: Calculate the equilibrium concentration ratio of C to A if equimolar ratio of A and B were allowed to come to equilibrium at 300K. A(g)+B(g)⇔C(g)+D(g) , ΔG∘=-830 cal. ,
If chemical equilibrium is attained at standard states then what is the value of ΔG^∘?
12
Nov
If chemical equilibrium is attained at standard states then what is the value of ΔG^∘? If chemical equilibrium is attained at standard states then what is the value of ΔG^∘? November 12, 2020 Category: Chapter 5 - Chemical Equilibrium (Level 1 and Level 2) , N Awasthi Physical Chemistry ,
Posted in: Chapter 5 - Chemical Equilibrium (Level 1 and Level 2) , N Awasthi Physical Chemistry ,
Tags: If chemical equilibrium is attained at standard states then what is the value of ΔG^∘? ,
The density of equilibrium mixture of N2O4 and NO2 at 1atm and 373K is 2.0g/L. Calculate the Kc for reaction N2O4(g)⇔2NO2(g)
12
Nov
The density of equilibrium mixture of N2O4 and NO2 at 1atm and 373K is 2.0g/L. Calculate the Kc for reaction N2O4(g)⇔2NO2(g) The density of equilibrium mixture of N2O4 and NO2 at 1atm and 373K is 2.0g/L. Calculate the Kc for reaction N2O4(g)⇔2NO2(g) November 12, 2020 Category: Chapter 5 - Chemical Equilibrium (Level 1 and Level [...]
Posted in: Chapter 5 - Chemical Equilibrium (Level 1 and Level 2) , N Awasthi Physical Chemistry ,
Tags: The density of equilibrium mixture of N2O4 and NO2 at 1atm and 373K is 2.0g/L. Calculate the Kc for reaction N2O4(g)⇔2NO2(g) ,
General method for the extraction of metal from oxide ore is (a) Carbon reduction (b) Reduction by aluminium (c) Reduction by hydrogen
12
Nov
General method for the extraction of metal from oxide ore is (a) Carbon reduction (b) Reduction by aluminium (c) Reduction by hydrogen General method for the extraction of metal from oxide ore is (a) Carbon reduction (b) Reduction by aluminium (c) Reduction by hydrogen November 12, 2020 Category: Uncategorised (JEE Advanced Physics by BM Sharma [...]
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Tags: General method for the extraction of metal from oxide ore is (a) Carbon reduction (b) Reduction by aluminium (c) Reduction by hydrogen ,
A mixture of 3 moles of SO2, 4 moles of NO2, 1 mole of SO3 and 4 moles of NO is placed in a 2.0L vessel. SO2(g)+NO2(g)⇔SO3(g)+NO(g). At equilibrium, the vessel is found to contain 1 mole of SO2. Calculate the value of KC.
12
Nov
A mixture of 3 moles of SO2, 4 moles of NO2, 1 mole of SO3 and 4 moles of NO is placed in a 2.0L vessel. SO2(g)+NO2(g)⇔SO3(g)+NO(g). At equilibrium, the vessel is found to contain 1 mole of SO2. Calculate the value of KC. 1 mole of SO3 and 4 moles of NO is placed [...]
Posted in: Chapter 5 - Chemical Equilibrium (Level 1 and Level 2) , N Awasthi Physical Chemistry ,
Tags: 1 mole of SO3 and 4 moles of NO is placed in a 2.0L vessel. SO2(g)+NO2(g)⇔SO3(g)+NO(g). At equilibrium , 4 moles of NO2 , A mixture of 3 moles of SO2 , the vessel is found to contain 1 mole of SO2. Calculate the value of KC. ,
Calculate KP for the reaction A(g)⇔B(s)+2C(g),KC=0.2 at 305 K.
12
Nov
Calculate KP for the reaction A(g)⇔B(s)+2C(g),KC=0.2 at 305 K. Calculate KP for the reaction A(g)⇔B(s)+2C(g) KC=0.2 at 305 K. November 12, 2020 Category: Chapter 5 - Chemical Equilibrium (Level 1 and Level 2) , N Awasthi Physical Chemistry ,
Posted in: Chapter 5 - Chemical Equilibrium (Level 1 and Level 2) , N Awasthi Physical Chemistry ,
Tags: Calculate KP for the reaction A(g)⇔B(s)+2C(g) , KC=0.2 at 305 K. ,
5 litre vessel contains 2 moles of each of gases A and B at equilibrium. If 1 mole each of A and B are removed. Calculate KC for the reaction A(g)⇔B(g)
12
Nov
5 litre vessel contains 2 moles of each of gases A and B at equilibrium. If 1 mole each of A and B are removed. Calculate KC for the reaction A(g)⇔B(g) 5 litre vessel contains 2 moles of each of gases A and B at equilibrium. If 1 mole each of A and B are [...]
Posted in: Chapter 5 - Chemical Equilibrium (Level 1 and Level 2) , N Awasthi Physical Chemistry ,
Tags: 5 litre vessel contains 2 moles of each of gases A and B at equilibrium. If 1 mole each of A and B are removed. Calculate KC for the reaction A(g)⇔B(g) ,
For the reaction A(g) ⇌ B(g) kc = 10 B(g) ⇌ C(g) kc = 2 C(g) ⇌ D(g) kc = 0.001 calculate kc for the reaction D(g) ⇌ A(g).
12
Nov
For the reaction A(g) ⇌ B(g) kc = 10 B(g) ⇌ C(g) kc = 2 C(g) ⇌ D(g) kc = 0.001 calculate kc for the reaction D(g) ⇌ A(g). For the reaction A(g) ⇌ B(g) kc = 10 B(g) ⇌ C(g) kc = 2 C(g) ⇌ D(g) kc = 0.001 calculate kc for the reaction [...]
Posted in: Chapter 5 - Chemical Equilibrium (Level 1 and Level 2) , N Awasthi Physical Chemistry ,
Tags: For the reaction A(g) ⇌ B(g) kc = 10 B(g) ⇌ C(g) kc = 2 C(g) ⇌ D(g) kc = 0.001 calculate kc for the reaction D(g) ⇌ A(g). ,
In the given network in the figure, find the charge on the capacitor ( in muC ).
12
Nov
In the given network in the figure, find the charge on the capacitor ( in muC ). find the charge on the capacitor ( in muC ). In the given network in the figure November 12, 2020 Category: Uncategorised (JEE Advanced Physics by BM Sharma + GMP Solutions) ,
Posted in: Uncategorised (JEE Advanced Physics by BM Sharma + GMP Solutions) ,
Tags: find the charge on the capacitor ( in muC ). , In the given network in the figure ,
Aluminium is extracted from alumina (Al2O3) by electrolysis of a molten mixture of (a) Al2O3 + HF + NaAlF4 (b) Al2O3 + CaF2 + NaAlF4
12
Nov
Aluminium is extracted from alumina (Al2O3) by electrolysis of a molten mixture of (a) Al2O3 + HF + NaAlF4 (b) Al2O3 + CaF2 + NaAlF4 Aluminium is extracted from alumina (Al2O3) by electrolysis of a molten mixture of (a) Al2O3 + HF + NaAlF4 (b) Al2O3 + CaF2 + NaAlF4 November 12, 2020 Category: Uncategorised [...]
Posted in: Uncategorised (JEE Advanced Physics by BM Sharma + GMP Solutions) ,
Tags: Aluminium is extracted from alumina (Al2O3) by electrolysis of a molten mixture of (a) Al2O3 + HF + NaAlF4 (b) Al2O3 + CaF2 + NaAlF4 ,