Jmol-Application/C3/Bond-Rotation-in-Jmol/English
Visual Cue | Narration |
Slide Number 1
Title Slide |
Welcome to this tutorial on Bond Rotation in Jmol. |
Slide Number 2
Learning Objectives |
In this tutorial, we will learn to,
Use tools in the model-kit menu to rotate bonds.
conformers of 1,2-dicholoroethane.
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Slide Number 3
System Requirement |
Here I am using
Ubuntu Linux OS version 20.04
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Slide Number 4
Pre-requisites |
To follow this tutorial the learner,
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Slide number 5
Conformations of 1,2-Dichloroethane |
The most prominent conformations of 1,2- dichloroethane are anti and gauche
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Cursor on Jmol interface. | Here I have opened the Jmol Application window. |
Click on the model kit menu. | Let us create a model of 1,2-dichloroethane on the Jmol panel.
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Cursor on the modelkit menu options.
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Make sure that carbon is selected in the atoms panel in the model kit menu.
This creates a model of ethane. |
click on the minimize option from the model it menu.
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Do the energy minimization, click on the minimize option from the model kit menu.
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In the model kit menu, select the chlorine atom with symbol C.l
Click on OK in the input dialog box.
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In the model kit menu, now select the chlorine atom with symbol Cl.
An input box opens. Type the symbol of the element in the input box. I will type Cl for chlorine and click on OK in the input dialog box. |
Cursor on the ethane molecule. | I have selected the chlorine atom.
We need to replace one hydrogen atom on each carbon with a chlorine atom. |
Click on the molecule and rotate. | Rotate the ethane molecule in such a way that you can see the Newman projection. |
click on the hydrogen atoms that are staggered to each other to get 1,2 dichloroethane.
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Now click on the hydrogen atoms that are opposite to each other.
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Click the file menu. Click on Console from the options. | To view the labeling of atoms, open the console from the File menu. |
At the prompt, type,
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At the prompt, type,
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Cursor on the molecule. | Close the Console window.
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Double-click on the chlorine atom on C1.
Then click on C1, next click on C2 then double-click on chlorine atom on C2. |
Let's measure the dihedral angle between the two chlorine atoms in this model.
Then click on C1, next click on C2 then double-click on chlorine atom on C2.
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Cursor on the model.
Name the file as Anti-DCE.mol
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This model is staggered 1,2-dichloroethane.
Name the file as Anti-DCE.mol Click on Save button. |
Click on the model and rotate. | We will create models of gauche and eclipsed conformers by rotating the C-C bond. |
Cursor on the model. | To create a gauche conformer, we need to rotate the C1-C2 bond by 120 degrees.
There are two ways by which we can achieve this. |
Slide number 6
Bond Rotation Tools |
Using the bond rotating tool from the modelkit menu.
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Open the modelkit menu, click on the rotate bond option. | Let us first use the bond rotating tool.
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Click on the bond connecting C1 and C2 atoms.
Hover the mouse over C1 carbon atom. Cursor on Rotate branch C1 message |
Click on the bond connecting C1 and C2 atoms.
rotate branch C1 message is displayed on the panel. |
Click on C1 atom and rotate it. | Click on C1 atom and rotate it.
Stop rotating when you see the dihedral angle between the two chlorine atoms is -60 degrees.
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Cursor on the panel. | This conformation of 1,2-dichloroethane on the panel is gauche. |
Open modelkit menu and choose Save file option.
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Save the model as a mol file using the Save file option in the modelkit menu.
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Rotate the model. | Let us rotate the gauche conformer to show Newman's projection. |
Cursor on the model.
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Back to the gauche conformation.
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At the prompt type,
select connected (C1) and not (C2); |
Open the Console window from the File menu.
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At the prompt type,
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Next type the following command to rotate the branch attached to C1 carbon.
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Slide Number 7
Links for Jmol Script Commands
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For more details on script commands please use the following web links. |
Slide Number 8
https://spoken-tutorial.org/tutorial-search/?search_foss=Jmol+Application&search_language=English. |
Please watch the video on script commands.
It is available on Spoken Tutorial website in the Jmol Application series |
Cursor on Jmol Panel. | Back to the Jmol panel.
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Open modelkit menu and choose Save file option.
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Save the model as a mol file. Use the Save file option in the model kit menu.
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Slide Number 9
Summary |
Let's summarize what we have learnt.
In this tutorial, we have:
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Slide Number 10
Assignment |
As an assignment,
Explore the rotate command to create models of conformations of n-butane. |
Slide Number 11
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Slide Number 12
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Slide Number 13
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Slide Number 14
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Spoken Tutorial project is funded by the Ministry of Education (MoE), Govt. of India |
Acknowledgement |
* The script for this tutorial is contributed by Snehalatha Kaliappan.
Thank you for joining. |