ChemCollective-Virtual-Labs/C2/Dilutions-and-pH-Measurement/English-timed

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Time Narration
00:01 Welcome to this tutorial on Dilutions and pH measurement.
00:06 In this tutorial, we will learn to measure: Change in pH for solutions of acid and base on dilution.
00:14 Variation in pH by common-ion effect for weak acids and bases.
00:20 To follow this tutorial, you should be familiar with, ChemCollective Vlabs interface.
00:27 If not, for relevant tutorials, please visit our website.
00:32 Here, I am using: Mac OS version 10.10.5
00:37 ChemCollective Vlabs version 2.1.0
00:42 Java version 8.
00:45 For this demonstration, let us dilute - 0.1 molar Hydrochloric acid to 0.01 molar Hydrochloric acid.
00:54 0.1 molar sodium hydroxide to 0.01 molar sodium hydroxide.
01:00 For this experiment, 2 ml of 0.1 M Hydrochloric acid or sodium hydroxide is diluted to 20 ml with distilled water.
01:12 I have opened a “Virtual Chemistry labs” application window.
01:18 Stockroom explorer opens with solutions of various acids and bases.

Double-click on Strong-acids cabinet.

01:29 A list of acidic solutions with various strengths opens.
01:34 Double-click to choose 0.1 Molar Hydrocloric acid.

Click on the flask, observe the pH on the pH Meter.

01:44 Note that pH Meter reads 1.

Click on the radio button near Strong-acids cabinet, to close the list.

01:54 Next, from Stockroom explorer, double-click on Strong-bases cabinet.

A list of basic solutions with various strengths opens.

02:05 Double-click to choose point one molar Sodium Hydroxide.
02:10 Click on the flask, observe the pH on the pH Meter.

Note that pH Meter reads 13.

02:19 Click on the radio button near Strong-bases cabinet to close the list.
02:25 Double click on Distilled water icon from Stockroom explorer.
02:30 Let us now add the required apparatus to the workbench.
02:35 Click on glassware icon.

Select Graduated Cylinders.

02:41 From the sub-menu, select 10 mL Graduated Cylinder to add to the workbench.
02:48 For this experiment, we need two Graduated cylinders.

Right-click on the Graduated Cylinder.

02:55 From the context menu, select copy.

Place the cursor at a different place.

03:02 Right-click and choose Paste option from the menu.
03:06 Click on glassware icon.

Select Erlenmeyers.

03:12 From the sub-menu, select 250 mL Erlenmeyer Flask.

We require two flasks. Right-click to copy and paste.

03:24 Label the Graduated Cylinders as A and B.

Right-click on the Graduated Cylinder.

03:32 From the Context-menu, select Rename option.
03:37 A text box opens. Type A in the text box and click on Ok button.
03:45 Similarly, label the other Graduated Cylinder as B.
03:51 Similarly, label Erlenmeyer Flasks as A and B.
03:59 Place each set of apparatus at a different position on the workbench.

Use set A for acids and set B for bases.

04:11 To perform this experiment, we will dilute 2 ml of 0.1 Molar Hydrocloric acid with 18 ml of distilled water.
04:22 Drag 0.1 molar Hydrochloric acid flask over to the Graduated Cylinder A.
04:30 In the Transfer amount input bar, type 2.

Click on Pour.

04:37 Move the flask aside.
04:40 Move the Distilled water tank over Flask A.

In the Transfer amount input bar, type 18.

04:48 Click on Pour. Move the Distilled water aside.
04:53 Place the Graduated Cylinder A over Flask A.
04:59 Change the transfer mode to Realistic transfer.

Click on Pour button gradually.

05:07 Move the Graduated Cylinder A aside.
05:11 Click on Flask A, observe the pH on the pH meter.

pH meter reads 2.

05:19 Similarly, let us dilute 0.1 Molar Sodium hydroxide and measure pH.
05:26 Measure 2 mL of 0.1 Molar Sodium hydroxide in Graduated Cylinder B.
05:34 Drag 0.1 molar Sodium Hydroxide flask over to Graduated Cylinder B.
05:41 Using Tools menu, change the transfer mode to Precise transfer.
05:47 In the transfer amount input bar, type 2.

Click on Pour.

05:53 Move the flask aside.
05:56 Move the Distilled water tank over Flask B.
06:00 In the Transfer amount input bar, type 18.

Click on Pour.

06:06 Move the Distilled water aside.
06:09 Transfer 2 ml of sodium hydroxide from Graduated Cylinder B to Flask B.

Place the Graduated Cylinder B over Flask B.

06:22 Change the transfer mode to realistic transfer.

Click on Pour button gradually.

06:29 Move the Graduated Cylinder B aside.
06:33 Click on Flask B, observe the pH on the pH meter.

pH meter reads 12.

06:41 Here is a table which shows results of our experiment.
06:46 pH of 0.1 Molar Hydrocholric acid is 1. When diluted, acidity decreases.

After dilution, pH was found to be 2.

06:59 Similarly, pH of 0.1 Molar Sodium Hydroxide is 13. When diluted, alkalinity decreases.
07:09 Hence, after dilution, pH was found to be 12.

Since pH is a logarithmic scale, for every 10 times dilution pH changes by 1 unit.

07:23 Back to the workbench.

For the next experiment, load a new workbench using File menu.

07:31 Click on Workbench 2.
07:34 Let us study the variation in pH by common ion effect.
07:40 We will demonstrate this, using weak acids and weak bases.
07:46 For this demonstration , we will use two examples-

1. Ethanoic acid and its conjugate base, sodium ethanoate.

2. Ammonia and its conjugate acid, Ammonium Chloride.

08:00 Back to workbench.

Place the required chemicals from the Stockroom explorer on the workbench.

08:08 From Stockroom explorer, double-click on Weak-acids cabinet.
08:14 A list of weak acid solutions with various strengths opens.

Double-click to choose 1 molar Ethanoic acid.

Close the list.

08:25 Again from Stockroom explorer, double-click on Weak-bases cabinet.

A list of weak bases with various strengths opens.

08:36 Double-click to choose 1 molar Ammonia solution.

Close the list.

08:43 Double-click on Conjugate-acids cabinet.
08:47 Double-click on 1 molar Ammonium Chloride solution.

Close the list.

08:54 Double-click on Conjugate-bases cabinet.

Double-click on 1 molar Sodium Ethanoate solution from the list.

Close the list.

09:05 Next, click on new glassware icon. Select 250 ml Beaker.
09:12 We need 4 Beakers for this experiment.

Right-click on the Beaker.

Using copy and paste option make 3 copies of the Beaker.

09:24 Label the beakers as A, B, C and D.
09:30 Place the Beakers A and B to one side of the workbench.
09:35 Place the Beakers C and D on other side of the workbench.
09:40 Place Ethanoic acid and its conjugate base, Sodium Ethanoate on one side.
09:47 Place Ammonia and its conjugate acid Ammonium Chloride on the other side.
09:54 Transfer 25 ml of Ethanoic acid in beakers A and B using Precise transfer mode.

Type 25 in the transfer amount input bar.

10:08 Click on pour.

Similarly, transfer 25 ml of Ethanoic acid to beaker B.

10:16 Move the flask aside.
10:19 Transfer 25 ml of Ammonia solution into beakers C and D.
10:30 Move the flask aside.
10:32 To demonstrate the effect of common ion- Transfer 25 ml of Sodium ethanoate into beaker B.
10:41 Place 1 molar Sodium ethanoate flask over beaker B.
10:47 Type 25 in the transfer amount input bar.

Click on pour.

Keep the flask aside.

10:55 To check the pH of 1M Ethanoic acid present in beaker A, click on beaker A.

pH meter shows pH value of 2.38.

11:10 Click on beaker B. pH meter shows value of 4.76 .
11:17 Now transfer 25 ml of Ammonium Chloride into beaker D.

Place 1 Molar Ammonium Chloride flask over beaker D.

11:29 Type 25 in the transfer amount input bar.

Click on pour.

Keep the flask aside.

11:38 To check the pH of 1molar Ammonia present in beaker C, click on beaker C.
11:46 pH meter shows pH value of 11.62.
11:52 Click on beaker D. pH meter shows pH value of 9.25.

Now, let us tabulate the results.

12:03 Due to the presence of common ion that is ethanoate ion, ionization of ethanoic acid decreases.

Hence pH value increases.

12:16 Similarly, due to the presence of ammonium ion, ionization of Ammonia decreases.

Hence pH value decreases.

12:26 Let us summarize.

In this tutorial, we have learnt to measure- Change in pH for solutions of 0.1 Molar Hydrochloric acid and 0.1 Molar Sodium Hydroxide on dilution.

12:43 Variation in pH by common-ion effect for ethanoic acid and ammonia solutions.
12:51 As an assignment: Measure change in pH for- 1 Molar and 0.01 Molar Sulphuric acid.
12:59 1 Molar and 0.01 Molar Sodium hydroxide.
13:04 The video at the following link summarizes the Spoken Tutorial project.

Please download and watch it.

13:11 The Spoken Tutorial Project team: conducts workshops using spoken tutorials and

gives certificates on passing online tests.

For more details, please write to us.

13:24 Please post your timed queries in this forum.
13:29 Spoken Tutorial Project is funded by NMEICT, MHRD, Government of India.

More information on this mission is available at this link.

13:40 This tutorial is contributed by Snehalatha Kaliappan and Madhuri Ganapathi from IIT-Bombay.

Thank you for joining.

Contributors and Content Editors

PoojaMoolya