For the reaction N(2)O(5)to2NO(2)+1/2O(2...

For the reaction `N_(2)O_(5)to2NO_(2)+1/2O_(2)`, Given `(-d[N_(2)O_(5)])/(dt)=K_(1)[N_(2)O_(5)], (d[NO_(2)])/(dt)=K_(2)[N_(2)O_(5)]` and `(d[O_(2)])/(dt)=K_(3)[N_(2)O_(4)]`. The relation in between `K_(1),K_(2)` and `K_(3)` is

`k_(1)=2k_(2)=3k_(3)`

`2k_(1)=4k_(2)=k_(3)`

`2k_(1)=k_(2)=4k_(3)`

`k_(1)=k_(2)=k_(3)`

Text Solution

Verified by Experts

The correct Answer is:

Topper's Solved these Questions

CHEMICAL KINETICS
AAKASH SERIES|Exercise Objective Exercise - 3 (Previous NEET/AIPMT Questions)|32 Videos
CHEMICAL KINETICS
AAKASH SERIES|Exercise Objective Exercise - 4 (Assertion (A) & Reason (R) Type Questions)|44 Videos
CHEMICAL KINETICS
AAKASH SERIES|Exercise Objective Exercise - 1|124 Videos
CHEMICAL KINETCS
AAKASH SERIES|Exercise EXERCISE - 3.2|45 Videos
CHEMICAL THERMODYNAMICS
AAKASH SERIES|Exercise Additional Practice Exercise|54 Videos

Similar Questions

Explore conceptually related problems

The decomposition of nitrogen pentoxide is given as 2N_(2)O_(5) to 4NO_(2) + O_(2) . The rates of reaction are ([N_(2)O_(5)])/(Delta t ) =k_(1)[N_(2)O_(5)],(Delta[NO_(2)])/(Deltat) = k_(2) [N_(2)O_(5)] and (Delta [O_(2)])/(Delta t) = k_(3) [N_(2)O_(5)] Relate the rate constants k_(1) , k_(2) and k_(3) .

For the rate of the reaction 2H_(2)O_(2)to2H_(2)O+O_(2),r=K[H_(2)O_(2)] it is

For the first order reaction 2N_(2)O_(5(g))to4NO_(2(g))+O_(2(g))

For the reaction CO_((g)) + (1)/(2) O_(2(g)), K_(1)//K_(c) is

For N_2O_5 to 2NO_2 + 1//2O_2, it is found that (-d)/(dt) [N_2O_5] = k_1[N_2O_5], (d)/(dt) [NO_2] = k_2[N_2O_5], (d)/(dt) [O_2] = k_3[N_2O_5] , then

For 2H_2O_2 to 2H_2O +O_2 . If (-d)/(dt) [H_2O_2] = K_1 [H_2O_2] (+d[H_2O])/(dt) = K_2[H_2O_2] (+d[O_2])/(dt) = K_3[H_2O_2]

The bonds present in N_(2)O_(5) are

For the reaction N_(2)+3H_(2)to2NH_(3) , the rate (d[NH_(3)])/(dt)=2xx10^(-4)Ms^(-1) . Therfore the rate -(d[N_(2)])/(dt) is given

Write the structures of the oxides : N_(2)O_(3), N_(2)O_(5), P_(4)O_(6) and P_(4)O_(10) .

AAKASH SERIES-CHEMICAL KINETICS-Objective Exercise - 2

For A to B, [A] changed from 4.4 xx 10^(-2)M to 3.2 xx 10^(-2) M in 2...
Text Solution
|
A gaseous phase reaction A2 to B +0.5C shows an increase in pressure...
Text Solution
|
For the reaction N(2)O(5)to2NO(2)+1/2O(2), Given (-d[N(2)O(5)])/(dt)=K...
Text Solution
|
The process 2A + B to C taking place in two steps: 1:2A to D"...
Text Solution
|
Thermal decomposition for N2O5(g) follows 1st order kinetics as per...
Text Solution
|
For the process 2A to products, rate of reaction w.r.t A at 10th sec...
Text Solution
|
For N2 + O2 to 2NO, initially N2 & O2 are at pressures 500mm & 700 m...
Text Solution
|
For H2 + Cl2overset(hv)(to) 2HCl , rate of reaction at t=0 is given b...
Text Solution
|
For SO2Cl2(g) to SO2(g) +Cl2(g) , Pressure of SO2Cl2 changed from 5 a...
Text Solution
|
For SO2Cl2(g)to SO2(g) + Cl2(g) Pressures of SO2Cl2 at t = 0 and t ...
Text Solution
|
For 2H2O2 to 2H2O + O2 , t(0.5) = 0.301 hr. When [H2O2] at t =0 is 0....
Text Solution
|
For 2SO2 + O2 to 2SO3 , rate of disappearance of SO2 is 4 xx 10^(-3) ...
Text Solution
|
For CH4 + Cl2 overset(hv)(to) product, rate of reaction at t=0 is giv...
Text Solution
|
The rate of reaction Ato products is 10mole/lit/min at time (t(1))=2"m...
Text Solution
|
3A to 2B , rate of reaction +(d[B])/(dt) is equal to
Text Solution
|
For a reaction the activation energy is zero. What is the value of rat...
Text Solution
|
The temperature coefficient of a reaction is 2.5. If its rate constant...
Text Solution
|
In the equilibrium reaction A+BhArrC+D, the activation energy for the ...
Text Solution
|
For a first order process, (-Ea)/(RT) value is -23.03, then value of ...
Text Solution
|
For producing the effective collisions the colliding molecules must ha...
Text Solution
|