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How do you find the rate of reaction in terms of concentration?

How do you find the rate of reaction in terms of concentration?

Reaction rate is calculated using the formula rate = Δ[C]/Δt, where Δ[C] is the change in product concentration during time period Δt. The rate of reaction can be observed by watching the disappearance of a reactant or the appearance of a product over time.

How does diluting a solution affect the reaction rate?

The more the solution of a reactant is diluted, the slower the reaction will occur.

What are the methods of determining the reaction rate?

There are two main ways to measure the concentrations of reactions: by measuring the changes in an observable physical property, or by taking samples of the reaction solution and measuring concentration directly.

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Does initial concentration affect rate of reaction?

Increasing the concentration of reactants generally increases the rate of reaction because more of the reacting molecules or ions are present to form the reaction products. Overall, concentration is only one factor influencing the rate of reaction, and the relationship is usually not simple or linear.

How does the rate law show how concentration changes affect the rate of reaction?

Typically, reaction rates decrease with time because reactant concentrations decrease as reactants are converted to products. Reaction rates generally increase when reactant concentrations are increased.

How do you find the rate law when given concentration and time?

First-Order Reactions A first-order reaction depends on the concentration of one reactant, and the rate law is: r=−dAdt=k[A] r = − dA dt = k [ A ] .

How concentration affect the rate of reaction?

Increasing the concentration of one or more reactants will often increase the rate of reaction. This occurs because a higher concentration of a reactant will lead to more collisions of that reactant in a specific time period.

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How initial concentration of reactant affect the initial rates?

What will happen to the rate if the concentration of A is kept the same and the concentration of B is tripled?

Explanation: When the concentration of A stays the same but the concentration of B doubles, the rate quadruples, showing a second order rate law based on B.

What must be known for the rate constant to be calculated from the rate law?

The rate law for a zero-order reaction is rate = k, where k is the rate constant. In the case of a zero-order reaction, the rate constant k will have units of concentration/time, such as M/s.