For the ideal gaseous reaction, the rate is generally expressed in terms of `(dP)/(dt)` instead of `(dC)/(dt)` or `(dn)/(dt)` (where C=`(n)/(V)` is concentration and n the no. of moles). What is the relation among these three expressions if T and V are constant?

For gaseous reactions, the rate is expressed in terms of dP//dt instead of dc//dt or dn//dt (where c is the concentration and n the number of mol ). What is the relation among these expresisons ?

The order of a reaction which has the rate expression (dc)/(dt) = k[E]^(3//2)[D]^(3//2) is

The population growth is generally described by the following equation : (dN)/(dt)= rN ((K-N)/(K)) What does 'r' represent in the given equation ?

The population growth is generally described by the following equation : (dN)/(dt)= rN ((K-N)/(K)) What does 'r' represent in the given equation ?

Conisder the chemical reaction N_(2)(g) + 3H_(2)(g) rarr 2NH_(3)(g) The rate of this reaction can be expressed in terms of time derivatives of the concentration of N_(2)(g), H_(2)(g) , or NH_(3)(g) . Identify the correct relationship among the rate expresisons.

The rate of a reaction is expressed in different ways as follows: +(1)/(2)(d[C])/(dt)=-(1)/(2)(d[D])/(dt)=+(1)/(3)(d[A])/(dt)=-(d[B])/(dt) the reaction is

The rate of a reaction is expressed in different ways as follows: +(1)/(2)(d[C])/(dt)=-(1)/(3)(d[D])/(dt)=+(1)/(4)(d[A])/(dt)=-(d[B])/(dt) the reaction is

A spaceship in space sweeps stationary interplanetary dust . As a result , its mass increase at a rate (dM(t))/(dt) =bv^(2) (t) , where v(t) is its instantaneous velocity . The instantaneous acceleration of the satellite is :

In acidic medium the rate of reaction between [BrO_(3)^(-)] and [Br^(-)] ions given by the expression - (d[BrO_(3)^(-)])/(dt) = k [BrO_(3)^(-)][Br^(-)][H^(+)]^(2) It means (i) rate of constant of the reaction depends upon the concentration of H^(+) ions (ii) rate of reaction is independent of the concentration of acid added (iii) the change in pH of the solution will affect the rate of reaction (iv) doubling the concentration of H^(+) ions will increase the reactions rate by 4 items.

For a reaction B+2D to 3T , it is given that - (dC_a)/(dt)= kC_a C_D^2 . The expression for -(dC_D)/(dt) will be: