Sir, I think you had made a mistake in ploting graph b/w rate and time for zero order reaction .Actually the graph is b/w rate and concentration because for zero order reaction ,rate is independent of concentration.
Gunjan Dagar, actually that graphs tells that the rate remains constant within the course of time. Bcoz the rate is constant from the equation. What you are telling is also true. But here I'm talking about rate and time.
Sir, In the graph you have plotted between the Concentration consumed and the time for zero order reaction, you are getting a positive slope. But I guess we should get a negative slope there since we have the equation (a-x) = -k0t + a. Please clarify this.
U will get a positive graph because if you see clearly a is cancel out and we will left with ko=x/t , nd the graph between x and t will be a straight line from origin with slope ko
How to derive the second order integrated rate law in terms of product P? A+B gives you product P How to derive this expression? [P]= [A]°[B]°(1-e^([B]°-[A]°)kt/ [A]°-[B]°e^([B]°-[A]°)kt Consider [A]° and [B]° as initial concentrations of A and B respectively. So how do you calculate the expression for product? Please reply.
Choinu SL, second part is already uploaded and for the third part its more of Theoretical so I'll suggest you plz read it from any good book. Like Atkins or Puri Sharma Pathania
the other part is already uploaded, you can watch that by clicking on "i" button, the third part of transition state theory is kind of theoretical work and i'll request you to read that from book as it is difficult to make video on that before csir exam.
sir thanks for the video. could you please make a video about the third part which deals about the transition state theory eyring equation and the comparison of two theories...we would be very glad sir.
JITU PADHEE, next part is already there... Plz watch that. For transition state theory and collision theory I'll suggest to read from some book like Atkins or Puri Sharma Pathania.
Sir ek question h plz reply. A first order gaseous reaction is 25% completes in 30 minutes at 227°C and in 10 minutes at 237°C . The activation energy of the reaction is closet to ( R =2 cal K-1 mol-1 )
sir plzzzz......... rate vs time for first, second and third order ke lia explain krke smjha dijia... .smjh nhi aa rha rate vs time or d[A]concentration ka
the other part is already uploaded, you can watch that by clicking on "i" button, the third part of transition state theory is kind of theoretical work and i'll request you to read that from book as it is difficult to make video on that before csir exam.
