CHEM 146
Lab 5 Worksheet |
1
Lab 5 Worksheet
Your name:
GRADE ____ /25 p
Note:
When performing calculations, always perform
dimensional analysis – that is, use conversion factors to ensure sure unwanted units cancel out during the calculation process leaving just the desired units. Avoid blindly performing mathematical operations (adding, multiplying, etc.) without checking the units for each quantity and converting to a different unit if necessary.
This assignment requires the accompanying
Lab 5 Manual
(separate document on D2L).
1. Activity 1. Evaluating the Acid-Neutralizing Capacity of Alka-Seltzer®- Back Titration.
Enter the data from
Activity 1 of this experiment into
Data Table 1 below.
Density of acetic acid (dCH3COOH) = 1.00 g/mL
Standardized NaOH solution concentration (CNaOH) = 1.0 M
Concentration of acetic acid (CCH3COOH) = 0.88 M
Data Table 1
Quantity | Trial 1 | Trial 2 |
Mass of acetic acid (g), mCH3COOH | 5.00 | 5.00 |
Mass of Alka-Seltzer® (g), mAlka-Seltzer® | 3.22 | 3.23 |
Initial volume NaOH solution in syringe (mL), Vinitial | 5 | 5 |
Final volume NaOH solution in syringe (mL), Vfinal | 3 | 2.5 |
Total volume of NaOH solution delivered (mL),
VNaOH = | ||
Moles NaOH delivered (mol), molNaOH = VNaOHCNaOH | ||
Alka-Seltzer® Neutralization Capacity (mol H+/g Alka-Seltzer®), AlkaSeltz Neu Cpty = |
2. Activity 2. Analysis of Milk of Magnesia.
Enter the data from
Activity 2 of this experiment into
Data Table 2 below.
Density of milk of magnesia (dMagnesia) = 1.14 g/mL
Concentration of acetic acid (CCH3COOH) = 0.88 M
Data Table 2
Quantity | Trial 1 | Trial 2 |
Mass of Milk of Magnesia (g), mMagnesia | 2.51 | 2.51 |
Initial volume acetic acid solution in syringe (mL), Vinitial | 5 | 5 |
Final volume acetic acid solution in syringe (mL), Vfinal | 3 | 4 |
Total volume of acetic acid solution delivered (mL),
VCH3COOH = | ||
Moles CH3COOH delivered (mol), molCH3COOH = VCH3COOHCCH3COOH | ||
Neutralization Capacity (mol H+/g Milk of Magnesia), Magnesia Neu Cpty = |
4. Which antacid is the most effective (has the highest number of moles of active ingredient) per gram of antacid? Justify your reasoning.
146 Lab 5 Worksheet
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01-20-24
UA-CBC Technical Press, University of Arizona