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Examples: temperature, pressure, concentrations, stirring, particles dimension, catalysts etc.
The rate is expressed in terms of concentrations of the reactants raised to some power.
The rate is expressed in terms of concentrations of the reactants raised to some power.
The rate is expressed in terms of concentrations of the reactants raised to some power.
Yes, the concentrations are constant but not necessarily static. The 'forward' reaction rate matches the 'reverse' reaction rate.
the rate increases as concentrations increase
Examples: temperature, pressure, concentrations, stirring, particles dimension, catalysts etc.
The rate is expressed in terms of concentrations of the reactants raised to some power.
The rate is expressed in terms of concentrations of the reactants raised to some power.
The rate is expressed in terms of concentrations of the reactants raised to some power.
The rate is expressed in terms of concentrations of the reactants raised to some power.
The rate is expressed in terms of concentrations of the reactants raised to some power.
The rate is expressed in terms of concentrations of the reactants raised to some power.
The rate is expressed in terms of concentrations of the reactants raised to some power.
The surface area to volume ratio of a cell affects the rate of diffusion in that the higher the ratio, the faster the rate of diffusion. This is a directly proportional relationship.
Bigger the SA:V ratio , transpiration sucks.
The rate increases as concentrations increase.