JChemPaint/C3/Properties-of-JChemPaint/English-timed
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Time | Narration |
00:01 | Hello everyone. Welcome to this tutorial on Properties of JChemPaint.. |
00:07 | In this tutorial, we will learn |
00:09 | * Periodic table trends |
00:11 | * Draw a reaction |
00:12 | and * Set-up R-Group query |
00:16 | To record this tutorial I am using, |
00:19 | * Ubuntu Linux OS version 12.04 |
00:23 | * JChemPaint version 3.3-1210 |
00:29 | * Java version 7 |
00:31 | To follow this tutorial you should be familiar with, JChemPaint chemical structures editor. |
00:39 | * If not, for relevant tutorial, please visit our website. |
00:44 | Let's switch to JChemPaint window. |
00:48 | Recall that we had saved our .jar file on the Desktop. |
00:54 | Press CTRl+ALt and T keys simultaneously to open the Terminal. |
01:00 | Type '“cd space Desktop” and press Enter. |
01:06 | Type “java space -jar space ./jchempaint-3.3-1210.jar” and press Enter. |
01:21 | JChemPaint window opens. |
01:24 | Let's begin with Periodic Table trends. |
01:28 | The tool bar at the bottom shows buttons of some important elements. |
01:35 | The tool bar has two extra buttons towards the right. |
01:40 | * Enter an element symbol via keyboard and |
01:44 | * Select new drawing symbol from periodic table. |
01:48 | Click on Select new drawing symbol from periodic table button. |
01:55 | Choose an element window opens with an inbuilt Periodic Table. |
02:01 | Here we can see a box with the text Periodic Table of elements. |
02:06 | This is an information box. |
02:11 | The information box displays the details of chosen Element. |
02:16 | For eg: I will place the cursor on Oxygen. |
02:21 | Details about Oxygen are displayed in the information box. |
02:26 | Likewise, we can see the details of various Elements in the information box. |
02:34 | Click on Close to close the window. |
02:38 | Click on Enter an element symbol via keyboard button. |
02:42 | Click on the Panel. |
02:45 | Enter element text box opens. |
02:48 | We can type the symbol of the Element in the text box. |
02:53 | For example: I will type Xe for Xenon. |
02:58 | Click on OK button. |
03:02 | The symbol of Xenon(Xe) is displayed on the Panel. |
03:08 | Now, let's draw the structure of Xenondifluoride (XeF2). |
03:14 | Go to Edit menu, navigate to Preferences and click on it. |
03:20 | Preferences window opens. |
03:23 | Uncheck Show Implicit hydrogens check box if it is checked. |
03:29 | Click OK to close the Preferences window. |
03:33 | Click on Fluorine(F) button and then click on Single bond button. |
03:39 | Move the cursor on Xenon atom. |
03:42 | Notice, a small blue circle appears on it. |
03:46 | Click and hold the left mouse button. |
03:50 | And then drag to draw two Xenon-Fluoride bonds. |
03:56 | Now I will explain about Xenon's Atom Popup Menu. |
04:02 | Move the cursor over to Xenon atom, right-click on it. |
04:07 | Xenon's Atom Popup Menu opens. |
04:11 | Here, I will explain about Isotopes, Change Element and Properties options. |
04:18 | Let's first move to Isotopes. |
04:21 | A submenu opens with a list of Isotopes of Xenon. |
04:26 | Next, I will move the cursor to Change Element. |
04:30 | A submenu opens with various categories of elements. |
04:36 | I will scroll down to various categories. |
04:40 | I will choose Alkali Earth Metals. |
04:44 | Alkali Earth Metals list opens. |
04:48 | Select Calcium(Ca) from the list. |
04:52 | We see that element Xenon is replaced by Calcium. |
04:57 | Now, we move on to Molecular Properties option. |
05:01 | Right click on Calcium. |
05:04 | Calcium's Atom Popup Menu opens. |
05:08 | Click on Molecular Properties option. |
05:11 | Properties text box opens. |
05:14 | Type the name of the compound as Calcium Fluoride and click on OK button. |
05:20 | Name of the compound is displayed below the structure. |
05:24 | Let us save the file now. |
05:26 | Click on Save button on the tool bar. |
05:30 | Save dialog box opens. |
05:32 | Type the file name as Calcium-fluoride. |
05:36 | Click on Save button. |
05:39 | Next, we will learn how to create a reaction. |
05:42 | To draw a reaction, we need to draw the required structures. |
05:48 | I have opened a new window with required structures. |
05:52 | Here the reactants are Propene and Chlorine molecules and product is 1,2-dicholoropropane. |
06:01 | On the left side tool bar, click on the Reaction arrow button. |
06:06 | Click between reactants and products. |
06:10 | The reaction is created. |
06:13 | We will now allign the structures properly in the reaction. |
06:18 | Click on Relayout the structures button on the top tool bar.Structures align properly |
06:27 | I will now discuss about how to set up an R group query. |
06:31 | What is an R-group query? |
06:35 | * An R-group query involves Root structure and substituents. |
06:41 | * It represents substitution on the same root structure. |
06:45 | * It can involve derivatives which differ in one or more substituents. |
06:53 | Click on Create a new file icon to open a new window. |
07:01 | Click on Draw a chain button. |
07:03 | Click on the Panel to draw a Carbon chain with three Carbon atoms. |
07:09 | Let's create a substituent that has to be attached to the Carbon chain. |
07:14 | For example, Benzene. |
07:17 | Click on Benzene ring on right side tool bar. |
07:22 | Click on the Panel. |
07:24 | Let's label the terminal Carbon atom as R1 in the Carbon chain. |
07:31 | Right click on terminal Carbon atom. |
07:35 | Atom Pop menu opens. |
07:38 | Scroll down to Pseudo Atoms. |
07:42 | A submenu opens; select R1. |
07:45 | Now let's define the Carbon chain as root structure. |
07:50 | Click on Selection button. |
07:53 | Select the Root structure by dragging over it. |
07:57 | Go to R-groups menu and select Define as Root Structure. |
08:04 | The substituent structure will be added as Not in R-Group. |
08:10 | Click on Selection button; |
08:13 | select the Substituent. |
08:16 | Go to R-groups menu and select Define as Substituent. |
08:22 | An input box opens. |
08:24 | Here, enter an R-group number as “1” and click on OK button. |
08:30 | The substituent will be numbered as R1. |
08:34 | On the Root structure, the substituent R1 will be marked with an asterisk(*) |
08:41 | The attaching Carbon atom of the substituent R1 will also be marked with an asterisk(*). |
08:49 | Click on the Selection button, select Root Structure and substituent(R1). |
08:56 | Go to R-groups menu, select General Possible configurations(sdf). |
09:03 | Save dialog box opens. |
09:06 | Type the file name as r-group, select the location as Desktop. |
09:12 | Click on Save button. |
09:15 | Click on Open icon on the tool bar. |
09:19 | Open dialogue box opens. |
09:22 | In the “Files of Type”, select “All Files” |
09:27 | Click on Desktop. |
09:29 | Click Open; then select the saved r-group file. |
09:34 | Click on “Open” button. |
09:37 | A message pops up; click OK. |
09:41 | A new file opens with r-group query structure. |
09:46 | To allign the structure properly, click on Relayout the structure button on the tool bar. |
09:54 | The structure shown is root structure along with attached R-group substituent Benzene. |
10:02 | Let's summarize. |
10:04 | In this tutorial we have learnt |
10:06 | * Periodic table trends |
10:09 | * Draw a reaction |
10:11 | * Set up R-Group query. |
10:14 | As an assignment, |
10:16 | * Explore various Periodic table trends and |
10:19 | * Draw reactions of your choice. |
10:24 | This video summarizes the Spoken Tutorial project |
10:28 | If you do not have good bandwidth, you can download and watch it. |
10:33 | Spoken Tutorial team conducts workshops using Spoken Tutorials and gives certificates. |
10:39 | Please contact us. |
10:42 | The Spoken Tutorial Project is funded by NMEICT, MHRD Government of India. |
10:49 | More information on this Mission is available at this link. |
10:55 | This is Madhuri Ganapathi from IIT Bombay signing off. Thank you for joining. |