Want this question answered?
chemical equilibrium
When the concentration of the reactants is equal to the concentration of the products and does not change over time, the system has reached dynamic equilibrium. Dynamic equilibrium means that the reaction is still occurring and does not stop. The reaction never reaches completion, because the reverse reaction is moving at the same rate as the forward reaction. The products and reactants are balanced. The reactants are producing at the same speed that the products are changing back into the reactants. When a reaction is in dynamic equilibrium, it is hard to tell that a reaction is occurring. There is no net change in the concentration of the products or reactants because both forward and reverse reactions are moving at the same rate.
The formula is:r = k(T) · [A]n'· [B]m' where:- r is the rate of reaction- k is the rate constant- [A] and [B] are the concentrations of the reactants- n' and m' are the reaction orders- T is the temperature
[products] over [reactants]
The hockey stick spreads the known concentration of bacteria evenly over the agar plate.
chemical equilibrium
keq3.5: products favored keq0.003: reactants favored
reactants are favored over products in the reaction
When the concentration of the reactants is equal to the concentration of the products and does not change over time, the system has reached dynamic equilibrium. Dynamic equilibrium means that the reaction is still occurring and does not stop. The reaction never reaches completion, because the reverse reaction is moving at the same rate as the forward reaction. The products and reactants are balanced. The reactants are producing at the same speed that the products are changing back into the reactants. When a reaction is in dynamic equilibrium, it is hard to tell that a reaction is occurring. There is no net change in the concentration of the products or reactants because both forward and reverse reactions are moving at the same rate.
products are favored over reactants in the reaction.
The graph between time and concentration is a curve because it represents the relationship between the two variables as one changes over time. Concentration is typically plotted on the y-axis and time on the x-axis. The resulting curve can vary depending on the rate of change of concentration over time, which can be influenced by factors such as the reaction kinetics, the initial concentrations, and the presence of reactants and products.
The formula is:r = k(T) · [A]n'· [B]m' where:- r is the rate of reaction- k is the rate constant- [A] and [B] are the concentrations of the reactants- n' and m' are the reaction orders- T is the temperature
[products] over [reactants]
products are favored over reactants in the reaction.
reactants are favored over products in the reaction
reactants are favored over products in the reaction
The hockey stick spreads the known concentration of bacteria evenly over the agar plate.