The reaction rate depends on the order of the reaction. In general (except for zero order), as the reaction progresses, the rate decreases with time.
The rate goes down.
As a reactant gets used up in a reaction, the rate of the reaction may slow down since there are fewer reactant molecules available to react. This can lead to a decrease in the production of products until all the reactant is fully consumed.
The first-order reaction formula used to determine the rate of a chemical reaction is: Rate kA, where Rate is the reaction rate, k is the rate constant, and A is the concentration of the reactant.
The rate of a reaction begins to decreases as reactant are used up
The rate of disappearance equation is used to calculate how quickly a substance is used up or changed in a chemical reaction. It helps determine the speed at which the reaction is happening.
The rate goes down.
The rate goes down.
The rate decreases as reactants are used up.
The rate of the reaction begins to decrease as reactants are used up (apex)
The rate of the reaction begins to decrease as reactants are used up (apex)
The rate of the reaction slows down
As a reactant gets used up in a reaction, the rate of the reaction may slow down since there are fewer reactant molecules available to react. This can lead to a decrease in the production of products until all the reactant is fully consumed.
When a catalyst is used in a chemical reaction, the reaction rate typically increases. This is because the catalyst provides an alternative reaction pathway with lower activation energy, allowing the reaction to proceed more quickly. Catalysts themselves are not consumed in the reaction and can be reused.
The first-order reaction formula used to determine the rate of a chemical reaction is: Rate kA, where Rate is the reaction rate, k is the rate constant, and A is the concentration of the reactant.
The rate of a reaction begins to decreases as reactant are used up
The rate of a reaction is calculated using the concentrations of reactants.
It is unchanged by the reaction.