0.16
0.16
0.09
Increasing the concentration of the reactants the rate of reaction increase.
If K(equilibrium constant) is greater than Q(concentration constant at a prticular point) then the reaction will tend to the right. If Q is less that K the reverse reaction will occur and if they are equal the reaction is at equilibrium. Example: aA+bB<--->cC+dD K=1.5 if Q<1.5 the reaction is aA + bB ---> cC + dD if Q> 1.5 the reaction is aA + bB <--- cC + dD K= [C]c[D]d/ [A]a[B]b at any point Q=[C]c[D]d/ [A]a[B]b at a particular point in time
First order; the rate is directly proportional to the concentration of reactant.
a} Is very high.
The rate constant is the reaction rate divided by the concentration terms.
The rate constant is the reaction rate divided by the concentration terms.
The rate constant is the reaction rate divided by the concentration terms.
The rate of enzyme reaction is increased when the substrate concentration is also increased. However, when it reaches the maximum velocity of reaction, the reaction rate remains constant.
The concentration of reactants and products remain constant.
how does the rate law show how concentration changes after the rate of reaction
how does the rate law show how concentration changes after the rate of reaction
how does the rate law show how concentration changes after the rate of reaction
If the equilibrium constant is zero, the reaction canNOT (will NEVER) reach equilibrium, it can not react back because all products are 'removed' (= concentration is zero).
The reaction rate is the rate at which the moles of substance change that varies with both temperature and concentration of the reactants. The specific rate constant is a proportionality constant that will vary only with temperature.
1. The rate of forward reaction = to the rate of backward reaction. 2. Concentration of the substance are constant.