119. The velocity of a reaction is expre...

119. The velocity of a reaction is expressed as follows. Velocity = k [A] [B], then the order of this reaction will be: (A) 2 (B) 3 (C) | (D) 0

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In a reaction, the rate expression is, rate = k[A][B]^(2//3)[C]^0 ,the order of reaction is:

For a reaction, A+2B to C, rate is given by +(d[C])/(dt)=k[A][B], hence, the order of the reaction is

For a reaction, A+2B to C, rate is given by +(d[C])/(dt)=k[A][B], hence, the order of the reaction is

For a reaction whose rate expression is rate (dx)/(dt)=k[A]^(1//2) [B]^(3//2) the overall order of the reaction will be:

For a reaction whose rate expression is rate (dx)/(dt)=k[A]^(1//2) [B]^(3//2) the overall order of the reaction will be:

If the rate expression for a reaction is dx/dt=k[A]^(1/2)[B]^(3/2) ,the overall order of the reaction is: (a) 2 (b) 3 (c) 4 (d) 5

If the rate expression for a reaction is dx/dt=k[A]^(1/2)[B]^(3/2) ,the overall order of the reaction is: (a) 2 (b) 3 (c) 4 (d) 5

If the rate expression for a reaction is (dx)/(dt)=k[A]^(1//2)[B]^(2//3) , the overall order of the reaction is :

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