`K_(m)` value is expressed as the substrate concentration at

K_(m) value represents

Michaelis - Menten constant (K_(m)) of an enzyme is substrate concentration at which the reaction attains

The shape of the curve obtained when substrate concentration is plotted against velocity of reaction

With the increase is substrate concentration the rate of enzymatic activity increases

The substrate of photorespiration is

How can you express the concentration of a solution ?

The cell , Zn//Zn^(2+) (1M) // Cu^(2+) (1M) // Cu (E_("Cell")^@ = 1.10V) , was allowed to be completely discharged at 298 K. The relative concentration of Zn^(2+) to Cu^(2+) is

For A+BhArrC , the equilibrium concentrations of A and B at a temperature are 15 "mol" L^(-1) . When volume is doubled the reaction has equilibrium concentration of A is 10 "mol" L^(-1) . Calculate a. K_(c) b concentration of C in original equilibrium.

In an equilibrium A+BhArrC+D,A and B are mixed in a vessel at temperature T. The initial concentration of A was twice the initial concentration of B. After the attainment of equilibrium, concentration of C was thrice concentration of B, calculate K_(c) .