Derive the integrated form for the second order reaction when the initial concentrations of the reactants are considered to be same.

Derive the integrated form for the second order reaction when the init

1.	Derive the integrated form for the second order reaction when the initial concentrations of the reactants are considered to be same.
Answer» Sign inContents Home Bookshelves Physical & Theoretical Chemistry SUPPLEMENTAL Modules (Physical and Theoretical Chemistry) KINETICS 2: Reaction Rates Expand/collapse global location2.8: Second-Order ReactionsLast updatedSep 11, 20202.7: Reaction Rates- Building Intuition2.8.1: Pseudo-1st-order reactionspicture_as_pdfReadabilityDonateMany important biological reactions, such as the formation of double-stranded DNA from two complementary strands, can be DESCRIBED using second order kinetics. In a second-order reaction, the sum of the exponents in the rate LAW is equal to two. The two most common FORMS of second-order reactions will be discussed in detail in this section.