In the reaction , `A+2Bto6C+2D`, if the initial rate `-(d[A])/(dt)` at t= 0 is `2.6xx10^(-2)Msec^(-1)`, what will be the value of `-(d[B])/(dt)` at t=0?

3A to 2B , rate of reaction +(d[B])/(dt) is equal to

Observe the following reaction A_((g))+3B_((g))to2C_((g)) The rate of this reaction -(d[A])/("d t") is 3xx0^(-3)"mol. lit"^(-1)."min"^(-1) . What is the value of -(d[B])/("d t") in "mol. lit"^(-1)."min"^(-1) ?

Consider the following reaction N_(2(g))+3H_(2(g))to2NH_(3(g)) . The rate of the reaction in terms in terms of N_(2) at T(k) is -(d[N_(2)])/(dt)=0.02 mole "lit"^(-1) "sec"^(-1) . What is the value of -(d[H_(2)])/(dt) (in mole "lit"^(-1)"sec"^(-1) ) at the same temperature?

In the reaction, 2A+Bto2C+D , the rate of disappearance of 'A' is 2.6xx10^(-2)"M-S"^(-1) . Then the rate of disappearance of B and the rate of appearance of C and D are respectively

Consider the following reaction: N_(2)(g) + 3H_(2)(g) to 2 NH_(3)(g) the rate of this reaction in terms of N_(2) at T K is =(-d[N_(2)])/(dt)= 0.02 mol L^(-1)s^(-1) . What is the value of (-d[N_(2)])/(dt) (in units of mol L^(-1)s^(-1) ) at the same temeprature.

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

Observe the following reaction: 2A + B to C The rate of formation of C is 2.2xx10^(3) mol L^(-1) min^(-1) .What is the value - (d(A))/(dt) ("in "mol L^(-1) mi n^(-1))

For the reaction 2HItoH_(2)+I_(2) the expression -1/2(d[HI])/(dt) represents