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Why are some reactions faster than others?

Why are some reactions faster than others?

Usually reactions speed up with increasing temperature. Physical state of reactants. Powders react faster than blocks – greater surface area and since the reaction occurs at the surface we get a faster rate. The presence (and concentration/physical form) of a catalyst (or inhibitor).

What causes a slower reaction rate?

Changing the Temperature It is also true that cooling a reaction will slow it down. At lower temperatures, the particles are moving more slowly, and fewer particles have an energy greater than the activation energy, and so cannot collide with enough energy to cause bonds to break.

Why different reactions proceed at different rates?

Reactions involve breaking of bonds of reacting species and forming of new bonds to give products. This process requires or releases energy. Since, different amounts of energies are involved in breaking and forming of different bonds, different reactions proceed with different speeds.

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What makes a faster reaction rate?

Temperature. Usually reactions speed up with increasing temperature (“100C rise doubles rate”). Powders react faster than blocks – greater surface area and since the reaction occurs at the surface we get a faster rate. The presence (and concentration/physical form) of a catalyst (or inhibitor).

How do you determine if a reaction is slow or fast?

In general, the reaction rate is slower when the reactants are large and complex molecules. Reaction depends on collisions. The more surface area on which collisions can occur, the faster the reaction.

How do you know if a reaction is slow or fast?

How do you know if a reaction is slow and fast?

Key Takeaways

  1. In a reaction with a slow initial step, the rate law will simply be determined by the stoichiometry of the reactants.
  2. In a rate law with a fast initial step, no intermediates can appear in the overall rate law.

How do you know which reaction is slowest?

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The slowest step in a reaction mechanism is known as the rate-determining step. The rate-determining step limits the overall rate and therefore determines the rate law for the overall reaction.

Why is the slowest step the rate-determining step?

Rate-determining steps are slow because of how the mechanism works, which is just another way of saying “it is what it is”, and isn’t much of an answer.

Why are reactions faster at the beginning?

This is largely to do with how much of the reactants are present. As a result there will be more successful collisions between the reactant particles. The more successful collisions, the faster the reaction will be.

Why is it important to know how fast or how slow a reaction would occur?

Firstly it’s important to understand what a rate of reaction is. For example, a slow rate of reaction might indicate that not many of the collisions are happening with the right amount of force to break the reactants chemical bonds, so the product isn’t made as quickly.

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What are some examples of slow chemical reactions?

Photosynthesis

  • Rusting of iron
  • Rock formation
  • What are some fast chemical reactions in everyday life?

    10 Common Chemical Reactions That Occur in Everyday Life Photosynthesis. Plants convert carbon dioxide and water into glucose and oxygen through the process of photosynthesis. Rusting. You must have seen brownish flaky coating over the metal surfaces. Chemical Reactions in Food Preservatives. Body Composition. Chopping an Onion is Also a Chemical Reaction. When You Apply the Sunscreen.

    Which reaction is slowest?

    When determining the overall rate law for a reaction, the slowest step is the step that determines the reaction rate. Because the first step (in the above reaction) is the slowest step, it is the rate-determining step.

    What are the 5 types of chemical reactions?

    We’ll learn about the five major types of chemical reactions: synthesis, decomposition, synthesis, single replacement (also called single displacement) and double replacement (also called double displacement). We’ll look at examples of each, so that you can classify them, figuring out what type they are.