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(Created page with '{|border =1 !Visual Cue !Narration |- ||'''Slide Number 1''' ||Hello everyone. Welcome the tutorial on '''Editing Molecules''' in '''GChemPaint'''. |- ||'''Slide Number 2''' ''…')
 
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{|border =1
 
!Visual Cue
 
!Narration
 
|-
 
||'''Slide Number 1'''
 
||Hello everyone.
 
  
Welcome the tutorial on '''Editing Molecules''' in '''GChemPaint'''.
 
|-
 
||'''Slide Number 2'''
 
 
'''Learning Objectives'''
 
||In this tutorial, we will learn to
 
 
* Add unbound electrons on an atom
 
 
* Draw  Carbonic acid and Sulphuric acid structures.
 
 
* Add and modify a local charge on a group of atoms
 
 
* Add and modify a local charge on an atom
 
 
* Add cyclic molecules
 
 
* Convert monocyclic molecules to bicyclic molecules.
 
|-
 
||'''Slide Number 3'''
 
 
'''System Requirement'''
 
||Here I am using
 
 
'''Ubuntu Linux''' OS version. 12.04
 
 
'''GChemPaint''' version 0.12.10
 
|-
 
||'''Slide Number 4'''
 
 
'''Pre-requisites'''
 
||To follow this tutorial you should be familiar with,
 
 
'''GChemPaint''' chemical structure editor.
 
 
If not, for relevant tutorials,  please visit our website.
 
|-
 
|| Switch to '''GChemPaint''' application.
 
||I have opened a new '''GChemPaint''' application. 
 
|-
 
||
 
||Let's first draw an '''Ammonia''' structure.
 
|-
 
||Point to '''Periodic table combo''' button.
 
||For this I will use the '''Periodic table combo''' button.
 
|-
 
||Click on  '''Current element''' drop down arrow button.
 
||Click on  '''Current element''' drop down arrow button.
 
|-
 
||Select '''N'' from the table.
 
||Select '''N''' from the table.
 
|-
 
||Point to '''N'''
 
||Observe '''N''' in the tool box.
 
|-
 
||Click on  '''Add or modify an atom''' tool>> click on '''Display area'''.
 
||Click on  '''Add or modify an atom''' tool.
 
 
Then click on '''Display area'''.
 
|-
 
||Point to '''NH3'''
 
||Observe '''NH3''' on the '''Display area'''.
 
|-
 
||Press capital '''H'''.
 
 
Point to the '''Submenu'''.
 
||Press capital '''H'''.
 
 
A '''Submenu''' with a list of elements starting with '''H''' appears.
 
|-
 
||Select '''H''' from the list.
 
||Select '''H''' from the list.
 
|-
 
||Click on '''Add a bond or change the multiplicity of the existing one''' tool>>Click  thrice on the '''Nitrogen''' atom.
 
||Click on '''Add a bond or change the multiplicity of the existing one''' tool.
 
 
Click  and drag the bond thrice on '''Nitrogen''' atom.
 
|-
 
||Point to the bonds
 
||Orient the three bonds to form a '''Pyramid''' like structure.
 
|-
 
||
 
||Let's add a pair of  unbound electrons on  '''Nitrogen''' atom.
 
|-
 
||Click on '''Add an electron pair to an atom''' tool>> click on the '''Nitrogen''' atom.
 
||Click on '''Add an electron pair to an atom''' tool.
 
Then click on '''Nitrogen''' atom of  '''Ammonia'''.
 
 
Observe the changes.
 
|-
 
||Point to the unbound electrons.
 
||Note that '''Nitrogen''' of '''Ammonia''' has a pair of  electrons that do not take part in bonding.
 
 
This pair of electrons is '''lone pair'''.
 
|-
 
||
 
||Let's now draw ''''Carbonic acid(H2CO3)''' and '''Sulphuric acid(H2SO4)''' structures on the same window.
 
|-
 
||Slide  Number
 
 
Structures of '''Carbonic acid''' and '''Sulphuric acid'''.
 
||Here is a slide for the structures of  '''Carbonic acid''' and '''Sulphuric acid'''.
 
|-
 
||
 
||Let's move '''Ammonia(NH3)''' structure to aside.
 
|-
 
||Click on '''Select one or more objects''' tool>>Click on the structure and drag to aside
 
||Click on '''Select one or more objects'''  tool.
 
 
Click on the structure and drag to aside
 
|-
 
||
 
||Let's first draw '''Carbonic acid''' structure.
 
|-
 
||Click on the '''Current element''' arrow button>>Select '''C''' from the table.
 
||Click on the '''Current element''' arrow button.
 
 
Select '''C''' from the table.
 
|-
 
||Click on '''Add a bond or change the multiplicity of the existing one''' tool.
 
||Click on '''Add a bond or change the multiplicity of the existing one''' tool.
 
|-
 
||Click on the '''Display area'''.
 
 
Point to the orientation
 
||Click on the '''Display area'''.
 
 
Orient three bonds  in such a way that they form an inverted Y.
 
|-
 
||Point to the fourth bond.
 
||Let's draw fourth bond as a double bond to any one of the bonds.
 
|-
 
||Click on '''Periodic table Combo''' button
 
||Now click on '''Periodic table Combo''' button
 
|-
 
||Select '''O'''.
 
||Select '''O'''.
 
|-
 
||Click on  '''Add or modify an atom''' tool
 
||Click on  '''Add or modify an atom''' tool
 
|-
 
||Point to the cursor.
 
||Place the cursor  near the bonds.
 
|-
 
||Click on the bond positions.
 
||Click on the three bond positions.
 
 
'''Carbonic acid(H2CO3)''' structure is drawn.
 
|-
 
||
 
||Let's draw the '''Sulphuric acid''' structure.
 
|-
 
||Click on '''Periodic table Combo''' button.
 
||Click on '''Periodic table Combo''' button.
 
|-
 
||Select '''S'''
 
||Select '''S'''
 
|-
 
||Click on  '''Add or modify an atom''' tool>>Click on the '''Display area'''.
 
Point to H2S.
 
||Click on  '''Add or modify an atom''' tool.
 
Click on the '''Display area'''.
 
Observe '''H2S'''.
 
|-
 
||Press  capital '''O'''
 
 
A '''Submenu''' with '''O''' and '''Os''' opens.
 
||Press  capital '''O'''
 
A '''Submenu''' with '''O''' and '''Os''' opens.
 
|-
 
||Select '''O'''.
 
||Select '''O'''.
 
|-
 
||Click on  '''Add or modify an atom''' tool>> click on '''Add a bond or change the multiplicity of the existiing one''' tool.
 
||Click on  '''Add or modify an atom''' tool.
 
 
Then click on '''Add a bond or change the multiplicity of the existing one''' tool.
 
|-
 
||Click on '''H2S''' to draw the three bonds of '''OH''' to '''S'''.
 
||Click on '''H2S''' to draw the three bonds of OH to '''S'''.
 
|-
 
||Click on '''S''' and drag the bond to a side without releasing the mouse.
 
||To draw the fourth '''OH''' bond,
 
 
click on '''S''' and drag the bond to a side without releasing the mouse.
 
|-
 
||
 
||Let's convert the opposite '''OH''' bonds as double bonds as shown in the slide.
 
|-
 
||Click on '''Add a bond or change the multiplicity of the existiing one''' tool>>click on the existing bonds.
 
||Click on '''Add a bond or change the multiplicity of the existing one''' tool.
 
 
 
Then click on the opposite existing bonds of the structure.
 
 
'''Sulphuric acid''' structure is drawn.
 
|-
 
||
 
||Next let's add a local charge on the '''Carbonic acid''' and '''Sulphuric acid''' structures.
 
|-
 
||Click on '''Decrement the charge of an atom''' tool.
 
||To show local charge on '''Carbonic acid'''.
 
 
Click on '''Decrement the charge of an atom''' tool.
 
|-
 
||Click on two  '''O-H''' groups.
 
||Click on the two '''O-H''' groups of the '''Carbonic acid'''. 
 
Observe that '''Carbonate ion''' is formed.
 
|-
 
||Click on '''Decrement the charge of an atom''' tool.
 
||To show local charge on  '''Sulphuric acid''' structure.
 
 
Click on '''Decrement the charge of an atom''' tool.
 
|-
 
||Click on the two opposite  '''O-H''' groups.
 
||Click on the two opposite  '''O-H''' groups of '''Sulphuric acid'''.
 
 
Observe that '''Sulphate''' is formed.
 
|-
 
||'''Slide Number 5'''
 
 
'''Assignment'''
 
||* Draw '''Nitric acid''' structure(HNO3)
 
 
* Show the local charge on the '''Nitrate ion'''(NO3-)
 
 
Your output should look like this.
 
|-
 
||
 
||Let's now show the charges on '''Sodium''' and '''Chlorine''' atoms.
 
|-
 
||Press capital ''N'''.
 
 
Point to the '''Submenu'''
 
||Press capital ''N'''.
 
 
A '''Submenu''' opens in which let's select '''Na'''.
 
|-
 
||Click on '''Add or modify an atom''' tool>>Click on the '''Display area'''.
 
||Click on '''Add or modify an atom''' tool.
 
 
Click on the '''Display area'''.
 
 
Na atom is displayed on the '''Display area'''.
 
|-
 
||Click on '''Increment the charge of a atom''' tool>>Click on '''Na'''.
 
||Click on '''Increment the charge of an atom''' tool.
 
 
Then Click on '''Na'''.
 
 
Observe a positive charge on the '''Sodium''' atom.
 
|-
 
||Point to the list
 
||Likewise press capital '''C'''.
 
 
A '''Submenu''' opens in which let's select '''Cl'''.
 
|-
 
||Click on the ''''Display area'''.
 
||Click on the '''Display area'''.
 
 
Observe '''HCl''' on the '''Display area'''.
 
|-
 
||Click  '''Decrement the charge of a atom''' tool>>Click on '''HCl'''.
 
||Click  '''Decrement the charge of an atom''' tool.
 
 
Click on '''HCl'''.
 
 
Observe a negative charge on the '''Chlorine''' atom.
 
|-
 
||Click on '''Periodic table combo''' button.
 
||Let's change the current element to '''Carbon'''.
 
 
Click on '''Periodic table combo''' button.
 
|-
 
||
 
||Now let's learn to draw '''Cyclic''' molecules.
 
|-
 
||Click on '''Create a new file''' icon on the toolbar.
 
||Let's open a new window.
 
 
Click on '''Create a new file''' icon on the toolbar.
 
|-
 
||Point to the tool box
 
 
Point to differenet tools
 
||Observe different cycle tools on tool box.
 
* '''Add a three membered cycle'''
 
 
* '''Add a four membered cycle'''
 
 
* '''Add a five membered cycle'''
 
 
* '''Add a six membered cycle'''
 
 
* '''Add a seven membered cycle'''
 
 
* '''Add a eight membered cycle'''
 
 
* '''Add a cycle'''.
 
|-
 
||
 
||Let's now add a  four membered cycle to the '''Display area'''.
 
|-
 
||Click on '''Add a four membered cycle''' tool>>Click on the '''Display area'''.
 
||Click on '''Add a four membered cycle''' tool.
 
 
Click on the '''Display area'''.
 
|-
 
||
 
||Let's now add atoms to the cycle at the corners.
 
|-
 
||Right click on any one of the corners>>A '''Submenu''' opens.
 
||Right click any one of the corners.
 
 
A '''Submenu''' opens.
 
|-
 
||Select '''Atom'''>>Then click on '''Display symbol'''.
 
||Select '''Atom'''.
 
 
Then click on '''Display symbol'''.
 
|-
 
||Point to the corners.
 
||Likewise let's add atoms on all the corners. Obtained structure is '''Cyclobutane'''.
 
|-
 
||
 
||Let's now convert a monocyclic compoud to bicyclic compoud.
 
|-
 
||Click on '''Add a six membered cycle''' tool>> click on the '''Display area'''.
 
||Click on '''Add a six membered cycle''' tool.
 
 
Then click on the '''Display area'''.
 
|-
 
||Click on the cycle bond
 
||Place the cursor on the cycle's bond and click again.
 
 
Observe the '''Bicyclic compound'''.
 
|-
 
||Click on '''Save the current file''' icon on the toolbar.
 
||To save the file,
 
 
Click on '''Save the current file''' icon on the toolbar.
 
|-
 
||'''Save as''' dialog box opens.
 
||'''Save as''' dialog box opens.
 
|-
 
||Enter the filename as '''Editing Molecules'''>>Click on '''Save''' button.
 
||Enter the filename as '''Editing Molecules'''
 
 
Click on '''Save''' button.
 
|-
 
||
 
||Let's summarize what we have learnt.
 
|-
 
||'''Slide Number 6'''
 
 
'''Summary'''
 
||In this tutorial, we have learnt to,
 
 
*  Add ubound electrons on an atom
 
 
*  Draw  Carbonic acid and Sulphuric acid structures.
 
 
*  Add and modify a local charge on a group of atoms
 
 
*  Add and modify a local charge on an atom
 
 
*  Add cyclic molecules
 
 
*  Convert monocyclic molecules to bicyclic molecules.
 
|-
 
||'''Slide Number 7'''
 
 
'''Assignment'''
 
||As an assignment
 
 
* Add cycloheptane ring to the Display area
 
* Change it to tricyclic compound.
 
Your completed assignment's output should look like this. 
 
|-
 
||'''Slide Number 8'''
 
 
'''Acknowledgement'''
 
||Watch the video available at this URL.
 
 
http://spoken-tutorial.org/ What_is_a_Spoken_Tutorial
 
 
It summarises the Spoken Tutorial project.
 
 
If you do not have good bandwidth, you can download and watch it.
 
|-
 
||''' Slide Number 9'''
 
||The Spoken Tutorial Project Team:
 
 
Conducts workshops using spoken tutorials
 
 
Gives certificates to those who pass an online test
 
 
For more details, please write to
 
 
'''contact@spoken-tutorial.org '''
 
|-
 
||'''Slide number 10'''
 
||Spoken Tutorial Project is a part of the Talk to a Teacher project
 
 
It is supported by the National Mission on Education through ICT, MHRD, Government of India
 
 
More information on this Mission is available at this link  '''http://spoken-tutorial.org/NMEICT-Intro '''
 
 
This is '''Madhuri Ganapathi''' from '''IIT Bombay''' signing off. Thank you for joining.
 
|-
 

Revision as of 12:27, 22 July 2013

Contributors and Content Editors

Madhurig, PoojaMoolya

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