molecularity Sentence Examples
- The molecularity of a reaction refers to the number of reactant molecules that collide simultaneously to form the products.
- Unimolecular reactions involve only one reactant molecule, while bimolecular reactions involve two.
- The molecularity of a reaction can be determined experimentally by measuring the reaction rate under different conditions.
- The molecularity of a reaction is an important factor in determining its mechanism and predicting its rate.
- Elementary reactions have a molecularity equal to the number of reactant molecules involved.
- The rate of a unimolecular reaction is proportional to the concentration of the reactant, while the rate of a bimolecular reaction is proportional to the square of the concentration.
- The molecularity of a reaction can be affected by factors such as temperature, pressure, and the presence of catalysts.
- Some reactions, such as termolecular reactions, involve the simultaneous collision of three reactant molecules.
- The molecularity of a reaction is a fundamental property that provides insights into the reaction mechanism and its dependence on the number of reactant molecules involved.
- Understanding the molecularity of reactions is essential for predicting their rates and designing chemical processes.
molecularity Meaning
Webster
molecularity (n.)
The state of consisting of molecules; the state or quality of being molecular.
Synonyms & Antonyms of molecularity
No Synonyms and anytonyms found
FAQs About the word molecularity
The state of consisting of molecules; the state or quality of being molecular.
No synonyms found.
No antonyms found.
The molecularity of a reaction refers to the number of reactant molecules that collide simultaneously to form the products.
Unimolecular reactions involve only one reactant molecule, while bimolecular reactions involve two.
The molecularity of a reaction can be determined experimentally by measuring the reaction rate under different conditions.
The molecularity of a reaction is an important factor in determining its mechanism and predicting its rate.