The standard Gibbs energy change at 300 ...

The standard Gibbs energy change at 300 K for the reaction `2A hArr B + C` is `2494.2 J.` At a given time, the composition of the reaction mixture is `[A] = 1/2, [B] = 2 and [C] = 1/2.` The reaction proceeds in the :
`[R = 8.314 J//K//mol, e = 2.718]`

forward direction because `QgtK_(C)`

reverse direction because `QgtK_(C)`

forward direction because `QltK_(C)`

reverse direction because `QltK_(C)`

Text Solution

Verified by Experts

The correct Answer is:

`DeltaG=DeltaG^(@)+RT "in" Q=2494.2+8.314xx300 "in" 4=` positive
DeltaG=RTln(Q)/(K)`
Since, `DeltaG` is positive so, `QgtK`, so reaction shifts in reverse direction.

Topper's Solved these Questions

CHEMICAL EQUILIBRIUM
RESONANCE ENGLISH|Exercise Advanced Level Problems (Part-2)(Section-1)|7 Videos
CHEMICAL EQUILIBRIUM
RESONANCE ENGLISH|Exercise Advanced Level Problems (Part-2)(Section-2)|6 Videos
CHEMICAL EQUILIBRIUM
RESONANCE ENGLISH|Exercise Exercise-3 (Part-2)|17 Videos
CHEMICAL BONDING
RESONANCE ENGLISH|Exercise ORGANIC CHEMISTRY(Fundamental Concept )|6 Videos
D & F-BLOCK ELEMENTS & THEIR IMPORTANT COMPOUNDS
RESONANCE ENGLISH|Exercise Match the column|1 Videos

Similar Questions

Explore conceptually related problems

The standard Gibbs energy change at 300K for the reaction 2AhArrB+C is 2494. 2J . At a given time, the composition of the reaction mixture is [A]=1/2, [B]=2 and [C]=1/2 . The reaction proceeds in the (R=8.314JK//"mol"e=2.718)

The value of K_(c) for the reaction 2A hArr B+C is 2.0xx10^(-3) . At a given time, the composition of reaction mixture is [A]=[B]=[C]=3xx10^(-4)M . In which direction the reaction will proceed?

The value of K_(c) for the reaction 2A rarr B + C "is" 2 xx 10^(-2) At a given time the composition of the reaction mixture is [A]=[B]=[C]=3 xx 10^(-3)M What will be the direction of the reaction ?

The standard Gibbs free energy change of for the reaction, 2AB hArr A_2 +B_2 is 11.8 KJ at 230 K and 1 atm. Calculate degree of dissociation of AB at 230 K.

For the reaction A(g) +3B(g) hArr 2C(g) at 27^(@)C , 2 moles of A , 4 moles of B and 6 moles of C are present in 2 litre vessel. If K_(c) for the reaction is 1.2, the reaction will proceed in :

The equilibrium constant for a reaction A+2B hArr 2C is 40 . The equilibrium constant for reaction C hArr B+1//2 A is

For a reaction A + 2B rarr C , rate is given by R = K [A] [B]^(2) . The order of reaction is:

For the reaction 3A(g)+B(g) hArr 2C(g) at a given temperature , K_c=9.0 .What must be the volume of the flask, if a mixture of 2.0 mol each of A, B and C exist in equilibrium ?

For the reaction : " "2A+B hArr 3C at 298 K, K_(c)=49 A 3L vessel contains 2,1 and 3 molesof A, B and C respectively. The reaction at the same temperature

RESONANCE ENGLISH-CHEMICAL EQUILIBRIUM-Advanced Level Problems (Part-1)

The standard Gibbs energy change at 300 K for the reaction 2A hArr B +...
09:01
|
1 mol of N(2) and 2 mol of H(2) are allowed to react in a 1 dm^(3) ves...
02:00
|
For the following mechanism, P + Qoverset(K(A))underset(K(B))hArr PQ ...
03:25
|
Select the reaction for which the equilibrium constant is written as [...
03:38
|
What should be the value of K(c) for the reaction 2SO(2((g)))+O(2((g))...
04:06
|
If 0.5 mole H(2) is reacted with 0.5 mole I(2) in a ten - litre contai...
02:05
|
4.5 moles each of hydrogen and iodine heated in a sealed ten litre ves...
02:47
|
In a 20 litre vessel initially each have 1-1 mole. CO,H(2)OCO(2) is pr...
02:37
|
At 1000 K, the value of K(p) for the reaction: A(g) + 2B(g)hArr3C(g) ...
02:07
|
In which of the following reactions is K(p)ltK(c)?
04:28
|
K for the synthesis of HI is 50. K for dissociation of HI is
02:13
|
The K(c) for H(2(g)) + I(2(g))hArr2HI(g) is 64. If the volume of the c...
03:38
|
In equilibrium CH(3)COOH+H(2)OhArrCH(3)COO^(-)+H(3)O^(+) The equilib...
05:09
|
In the esterification C(2)H(5)OH(l)+CH(3)COOH(l)" an "hArr CH(3)COOC...
03:52
|
In the following reaction started only with A(8), 2A(8)(g) hArr3A(2)(g...
02:51
|
Ina 0.25 litre tube dissociation of 4 moles of NO takes place. If its ...
04:36
|
For the given reaction at constant pressure, {:(,nA(g)hArr,An(g)),("...
03:48
|
On decomposition of NH(4)HS , the following equilibrium is estabilishe...
02:49
|
At room temperature, the equilibrium constant for the reaction P + Q h...
05:05
|
Calculate Delta,G^(Ө) for conversion of oxygen to ozone, 3/2 O(2)(g)ra...
01:59
|

Home

Profile

The standard Gibbs energy change at 300 K for the reaction `2A hArr B + C` is `2494.2 J.` At a given time, the composition of the reaction mixture is `[A] = 1/2, [B] = 2 and [C] = 1/2.` The reaction proceeds in the : `[R = 8.314 J//K//mol, e = 2.718]`

Text Solution

Topper's Solved these Questions

Similar Questions

RESONANCE ENGLISH-CHEMICAL EQUILIBRIUM-Advanced Level Problems (Part-1)

The standard Gibbs energy change at 300 K for the reaction `2A hArr B + C` is `2494.2 J.` At a given time, the composition of the reaction mixture is `[A] = 1/2, [B] = 2 and [C] = 1/2.` The reaction proceeds in the :
`[R = 8.314 J//K//mol, e = 2.718]`