For `1/2X_(2)+Y_(2)toXY_(2)` the rate law of species is given as

For a reaction, X_(2) +3Y_(2) rarr 2XY_(3) write the rate equation in terms of rate of disappearance of y_(2) .

Let y= (x + (1)/(x))^(2) Find the rate of change of y with respect to x when x=2.

The given data are for the reaction, 2NO(g)+Cl(g)rarr2NOCl(g)" at "298K The rate law of the reactions is

From the rate laws for the reactions given below, determine the order with respect to each species and the overall order: underset("Rate ="k[H_2O_2][I^(-)])(H_2O_2 + 2I^(-)+ 2H^(+) to I_2+ 2H_2O)

For a reaction, A+Brarr Product, the rate law is given by r=k[A]^((1)/(2))[B]^(2) . What is the order of the reaction ?

If x_(1),x_(2) "and" y_(1),y_(2) are the roots of the equations 3x^(2) -18x+9=0 "and" y^(2)-4y+2=0 the value of the determinant |{:(x_(1)x_(2),y_(1)y_(2),1),(x_(1)+x_(2),y_(1)+y_(2),2),(sin(pix_(1)x_(2)),cos (pi//2y_(1)y_(2)),1):}| is

Two wave function in a medium along x direction are given by y_(1)=1/(2+(2x-3t)^(2))m , y_(2)=-1/(2+(2x+3t-6)^(2))m Where x is in meters and t is in seconds

For the reaction : H_(2)+I_(2)to 2HI, the differential rate law is

Find the rate of change of y with respect to x when x=1 ,given that y=x^(2)

For the reaction: 2H_2 + 2NO Calculate the following: (1) The overall order of reaction. (2) The rate law. (3) The value of rate constant (k).