100 Examples of sentences containing the common noun "molarity"

Definition

Molarity is a measure of concentration that expresses the number of moles of solute per liter of solution. It is commonly used in chemistry to quantify the concentration of a chemical solution. The formula for calculating molarity is:

[ \text{Molarity (M)} = \frac{\text{moles of solute}}{\text{liters of solution}} ]

Synonyms

• Concentration
• Strength
• Density (in specific contexts)
• Solution concentration

Antonyms

• Dilution
• Weakness
• Rarity

Examples

1. The chemist calculated the molarity of the sodium chloride solution.
2. In order to prepare a standard solution, you need to know the molarity required.
3. The molarity of the acid increased after adding more solute.
4. To find the molarity, divide the number of moles of solute by the volume of the solution in liters.
5. The experiment required a precise molarity to ensure accurate results.
6. After mixing, the molarity of the solution was recorded.
7. We can adjust the molarity by adding more solvent.
8. The molarity of the solution was found to be higher than expected.
9. It’s essential to measure the molarity accurately in titration experiments.
10. The lab technician was tasked with determining the molarity of several samples.
11. The molarity of glucose in the solution was crucial for the experiment.
12. Adjusting the molarity can affect the reaction rate significantly.
13. The professor explained how to calculate the molarity during the lecture.
14. A lower molarity can lead to less effective reactions in chemistry.
15. The molarity of the solution was too low to conduct the experiment.
16. She used a pipette to measure the molarity accurately.
17. The chemist prepared a molarity of 0.5 M for the experiment.
18. We need to increase the molarity for the next trial.
19. The molarity of hydrochloric acid was critical for the acid-base titration.
20. The solution's molarity affects the solubility of the solute.
21. Understanding molarity is fundamental for chemistry students.
22. The molarity of the dye in the solution was measured for the analysis.
23. The determined molarity was essential for the synthesis process.
24. Adjusting the molarity can optimize the yield of the reaction.
25. The molarity of the stock solution was too high for the experiment.
26. To create a buffer solution, the molarity must be controlled.
27. The lab report included the molarity of each solution used.
28. The chemist noted the molarity on the label of the reagent bottle.
29. We discussed the implications of molarity in our group meeting.
30. The molarity of the solution determines how it behaves in chemical reactions.
31. The final molarity was calculated after all the experiments were complete.
32. The instructor emphasized the importance of knowing the molarity in practical applications.
33. An increase in molarity generally results in a faster reaction rate.
34. The molarity of the standard solution needs to be checked regularly.
35. Each solution's molarity was plotted on the graph for analysis.
36. The experiment required a specific molarity to function properly.
37. The molarity can be adjusted by diluting the solution with distilled water.
38. The results were influenced by the molarity of the reactants used.
39. The molarity of potassium nitrate in the solution was tested.
40. A lower molarity suggests a weaker solution.
41. The molarity of the solution was critical for the drug formulation.
42. The team had to verify the molarity before proceeding with the research.
43. The molarity of the electrolyte affects the conductivity of the solution.
44. The chemist ensured the molarity was correct before starting the experiment.
45. The lab's focus was on determining the molarity of various substances.
46. She had difficulty understanding how to calculate molarity.
47. The molarity of the saltwater solution was tested in the lab.
48. The experimental design required knowledge of molarity.
49. The molarity was too high, leading to unexpected results.
50. Adjusting the molarity of the buffer can stabilize the pH level.
51. The molarity of the detergent solution was measured for the study.
52. The research paper discussed the effects of varying molarity on enzyme activity.
53. The molarity of the solution was calculated using a dilution method.
54. The chemist used a spectrophotometer to determine the molarity.
55. The molarity of the reactants directly impacted the outcome of the reaction.
56. Each experiment required a different molarity of the same compound.
57. The molarity was adjusted to achieve the desired reaction speed.
58. We discussed how to increase the molarity in our next experiment.
59. The molarity was consistent with the expected results.
60. The lab focused on the molarity of various acids in solution.
61. The molarity was verified by titrating it against a standard solution.
62. The molarity of a solution can change with temperature.
63. The chemist had to dilute the solution to achieve a lower molarity.
64. Understanding molarity is essential for accurate scientific measurements.
65. The molarity of the final product was confirmed by analysis.
66. The experiment required maintaining a constant molarity throughout.
67. She carefully recorded the molarity in her lab notebook.
68. The molarity of the sugar solution was tested for its effect on fermentation.
69. A higher molarity often leads to increased reaction rates.
70. The molarity of the reagent was crucial for the calibration process.
71. The molarity of the stock solution was calculated before dilution.
72. The molarity was adjusted to ensure optimal reaction conditions.
73. The molarity of the solvent affects the solubility of the solute.
74. The calculated molarity was essential for the subsequent steps.
75. She learned how to convert molarity into mass concentration.
76. The molarity of the original solution was essential for the experiment.
77. Accurately measuring the molarity is key to successful chemistry.
78. The lab assistant was responsible for preparing the molarity standards.
79. The molarity of the baking soda solution was tested for pH balance.
80. Understanding the principles of molarity is foundational in chemistry.
81. The molarity was adjusted based on the results of preliminary tests.
82. The chemist explained how to find the molarity using a titration method.
83. The molarity of the nutrient solution was carefully monitored.
84. The final molarity was determined after several iterations of testing.
85. The lab's focus was on analyzing the molarity of different solutions.
86. The molarity of the vinegar solution was tested for acidity.
87. A precise molarity is required for accurate scientific experimentation.
88. The molarity of the solution was critical for the analysis procedure.
89. The team adjusted the molarity to improve the efficiency of the reaction.
90. The molarity of the chemical solution was calculated using a formula.
91. The molarity of the solution impacted the overall yield.
92. The chemist was tasked with ensuring the molarity was within specifications.
93. The molarity of the solution will affect the reaction kinetics.
94. The experiment's design included a range of molarity levels.
95. The molarity of the saline solution was crucial for patient care.
96. The lab focused on the molarity of different metal ions in solution.
97. The molarity of the reactants was established before the experiment began.
98. The molarity was adjusted to achieve the desired pH level.
99. The results showed a clear correlation between molarity and reaction rate.
100. The molarity of the food dye was critical for color analysis in the study.