"Stoichiometry" Example Sentences
1. The process of balancing equations involves stoichiometry.
2. Stoichiometry is important in the production of chemicals.
3. In chemistry, stoichiometry is used to determine the amount of reactants and products in a reaction.
4. The stoichiometry of a reaction can be altered by changing the reactant ratio.
5. Accurate stoichiometry is crucial in laboratory experiments.
6. The stoichiometry of a reaction can be calculated using molar ratios.
7. A basic understanding of stoichiometry is essential for chemistry students.
8. The stoichiometry of a reaction can affect the yield of the products.
9. Stoichiometry is used in the production of fertilizers.
10. A stoichiometry table can be used to calculate reactant and product ratios.
11. The stoichiometry of a reaction can be determined using a balanced chemical equation.
12. Stoichiometry is used in the synthesis of polymers.
13. The stoichiometry of a reaction can be affected by catalysts.
14. Calculating stoichiometry requires knowledge of molar masses and chemical formulas.
15. The stoichiometry of a reaction can determine the limiting reagent.
16. Balanced chemical equations are important tools for stoichiometry calculations.
17. Understanding stoichiometry can help predict the outcome of a chemical reaction.
18. Stoichiometry is used in the production of pharmaceuticals.
19. Stoichiometry is an important concept in chemical equilibrium.
20. The stoichiometry of a reaction can be affected by temperature and pressure changes.
21. Stoichiometry is used in the production of plastics.
22. The stoichiometry of a reaction can be determined using a chemical balance.
23. Stoichiometry is used in the production of electronic components.
24. The stoichiometry of a reaction can be affected by the presence of impurities.
25. Understanding stoichiometry can help solve problems related to chemical reactions.
26. Stoichiometry is used in the production of cosmetics.
27. The stoichiometry of a reaction can be determined using stoichiometric coefficients.
28. Stoichiometry is important in the extraction of metals from ores.
29. The stoichiometry of a reaction can be influenced by the concentration of the reactants.
30. Accurate stoichiometry calculations are necessary for quality control in the production of food additives.
Common Phases
1. Calculate the theoretical yield using
stoichiometry;
2. Use
stoichiometry to determine the limiting reactant;
3.
Stoichiometry can help balance chemical equations;
4. Determine the mole ratios of reactants and products using
stoichiometry;
5.
Stoichiometry is essential for calculating the amount of product formed in a reaction;
6.
Stoichiometry helps to determine the amount of excess reactant;
7. Use
stoichiometry to solve for the mass of a reactant or product.