Difference between revisions of "GChemPaint/C3/Features-and-Color-Schemes/English"
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Table shows '''Carbon's''' name in various languages. | Table shows '''Carbon's''' name in various languages. | ||
|- | |- | ||
− | || | + | ||Click on '''Electronic properties''' tab |
||Next click on '''Electronic properties''' tab | ||Next click on '''Electronic properties''' tab | ||
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'''Complex Formation''' | '''Complex Formation''' | ||
− | + | Point to the link. | |
||More details about complex formation are available at this link | ||More details about complex formation are available at this link | ||
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Point to '''Melting Point''' and '''Boiling point''' | Point to '''Melting Point''' and '''Boiling point''' | ||
||Click on '''Thermodynamics''' tab | ||Click on '''Thermodynamics''' tab | ||
+ | |||
This shows '''Melting Point''' and '''Boiling point''' of Carbon. | This shows '''Melting Point''' and '''Boiling point''' of Carbon. | ||
|- | |- |
Revision as of 13:39, 28 March 2014
Title of the tutorial: Features and Color Schemes
Author: Madhuri Ganapathi
Key words: Periodic table of the element buttons, Elemental window, Color Schemes ,Video tutorial, Video tutorial
Visual Cue | Narration
|
---|---|
Slide Number 1
Title Slide |
Hello everyone.
Welcome to this tutorial on Features and Color Schemes in GChemTable. |
Slide Number 2
Learning Objectives |
In this tutorial, we will learn about
|
Slide Number 3
System Requirement |
Here I am using
Ubuntu Linux OS version 12.04. GChemPaint version 0.12.10. GChemTable version 0.12.10 |
Slide Number 4
Pre-requisites |
To follow this tutorial, you should be familiar with
For relevant GChemPaint tutorials, please visit our website. |
Now let's learn about GChemTable application. | |
Slide Number 5
Installation |
GChemTable
can be installed as a utility software of GChemPaint using Synaptic Package Manager' |
Slide Number 6
About GChemTable' |
GChemTable is a chemical elements Periodic table application.
It provides scientific information about elements It shows Periodic table with different Color schemes. |
Click on Dash Home type GChem3D in the search bar>>
Click on Periodic table of the elements icon. |
To open GChemTable, click on Dash Home.
In the search bar that appears type “gchemtable”. Click on Periodic table of the elements icon. |
Point to Periodic table of the elements window.
Point to Menubar |
GChemTable window has Menubar like all window based programs.
Menubar contains all the commands you need to work with GChemTable. |
Point to the table
point to element buttons |
This is the Periodic table.
Here you can see element buttons. |
Place the cursor on the element button. | To get the name of the element, place the cursor on the element button. |
Point to the buttons.
Point to the table. |
Colors used for buttons in the table are conventional colors of the elements.
This table is a replica of Modern Periodic table. |
Now let's learn about Elemental window. | |
Click on any element button on the periodic table. | To display it, click on any element button on the periodic table.
I will click on Carbon(C) Elemental window of Carbon opens. |
Point to the sides | Elemental Window contains four side tabs
I will explain about each tab one by one |
Point to the Main tab
point to all the components one by one. |
By default Main tab is selected.
|
Point to the headings | It has a table with headings Lang and Name
Table shows Carbon's name in various languages. |
Click on Electronic properties tab | Next click on Electronic properties tab |
Point to electronegativity value
Ionization energies Electronic affinities |
This tab shows details about
Pauling electro-negativity value Ionization energies in- MJ per mol. first, second and third Ionization energies. Electronic affinities in – KJ per mol. |
Point to the buttons
Click on the buttons. Point to the displayed chart. |
On the rightside corresponding Show curve buttons are seen.
Click on Show curve button to view the Chart. |
Point to Close button. | I will close the chart. |
Click on Radii tab
Point to the values |
Next click on Radii tab
This tab shows
'pm' is pico metre= 10-12m. Since Carbon is non-metal it does not have Metallic radii value. |
Point to Close button. | I will close the Carbon window. |
Click on Sodium(Na) button>>Click on Radii tab. | Let's click on Sodium(Na) button.
Click on Radii tab. Metallic radii value is shown here. |
Point to the table columns. | Radii tab shows a table of Ionic radii.
Table contains Ion, C.N, Value as columns Let's scroll down the table. |
Point to Ion CN and Value columns. | This table gives information about different Ionic states that Sodium exists in.
Its Coordination number(CN) and Ionic radii value in 'pm'. |
Point to Close button. | Let's close Sodium Elemental window . |
Point to the Element buttons. | Elements Chromium, Manganese, Iron, Cobalt, Nickel and Copper have a tendency to form a large complexes. |
Click on Iron button.
Point to the Elemental window. |
Let's click on Iron(Fe) button.
Its elemental window opens |
Click on Radii tab. | Click on Radii tab.
Ionic radii table has an extra column named Spin. |
Point to Spin column | Spin column gives idea about complex formation tendency of Iron. |
Point to High and Low | Here High means spin free complexes where electrons are unpaired.↑ ↑ ↑ ↑
Low means spin paired complexes where electrons are paired up. ⇅ ⇅ ⇅ ⇅ |
Point to Close button. | I will close the elemental window of Iron(Fe) |
Slide Number 7
Complex Formation Point to the link. |
More details about complex formation are available at this link |
Click again on the Elemental window of Carbon. | Let's click again on the Elemental window of Carbon. |
Click on Thermodynamics tab
Point to Melting Point and Boiling point |
Click on Thermodynamics tab
This shows Melting Point and Boiling point of Carbon. |
Assignment | Explore Show curve button on your own. |
Point to Close button. | Let's close the window. |
Now let's move on to Color schemes. | |
Go View menu and select Color scheme. | Go View menu, select Color scheme. |
Click on No colors.
Point to element buttons. |
Click on No colors
All element buttons turn to grey. |
Click on Color Scheme.
Select Physical states. |
Click on Color Schemes. Select Physical states. |
Move the cursor on the table. | A new Periodic table opens with elements buttons in 'Blue' color.
Except for some in 'Black'. |
Point to the scale slider | On the top you can see a Temperature(K): scale slider with 'zero(0)' as minimum value. |
Point to colors of solid, liquid and gas. | Below you can see colors of 'Solid-Blue', 'Liquid-Green' and 'Gas-Red'. |
Point to 0K>>point to color. | At zero degree Kelvin all the elements are in solid state.
So they appear in blue color. |
Drag the slider.
Point to the colors |
Let's drag the slider to increase the temperature.
Notice that elements change their Physical state. Blue color is replaced by Green(liquid) and Red(Gas) colors. |
Point to 6010K>>point to color. | At 6010 Kelvin all the elements change to gaseous state.
All the buttons change to 'Red' color. |
Point to color. | Some elements are shown with black background.
Their state is unknown at that 'Temperature'. |
Next let's select Family. | |
Point to Selected Family drop down button. | Selected Family drop down button appears. |
Scroll down the list. | Drop down list has various families with their corresponding colors. |
Point to All>>Point to different family colors. | By default All is selected.
Each Family of elements appear in specific Family colors. |
Click on the drop down list and select Metalloids. | Click on the drop down list and select Metalloids. |
Point to Metalloids color.
Move the cursor over rest all elements. |
Metalloids appear in Green family background color.
Rest all elements appear in black background. |
Select Electronegativity Color scheme. | Go back to Color Scheme, select Electronegativity. |
Point red colored buttons.
Point to blue colored buttons. |
Elements with red color have lowest Electronegativity values.
Elements with blue color have highest Electronegativity values. |
Point to black colored buttons. | If no data is available in the database, element appears in black background. |
Move the cursor over rest all elements
Point to pink colored buttons. |
There is gradual change in the color from red to blue.
Elements with pink color have in between Electronegativity values. |
Point to the Blocks>>move the cursor on all the Blocks | Let's now select Block.
Elements of each Block appear with alloted block color.
|
Let's summarize what we have learnt. | |
Slide Number 8
Summary |
In this tutorial we have learnt.
* Physical State * Family * Electronegativity and * Block |
Slide Number 9
Assignment |
Here is an assignment
Explore
|
Slide Number 10
Acknowledgement |
Watch the video available at this link.
http://spoken-tutorial.org/What_is_a_Spoken_Tutorial It summarizes the Spoken Tutorial project If you do not have good bandwidth, you can download and watch it |
Slide Number 11 | The Spoken Tutorial Project Team:
Conducts workshops using spoken tutorials Gives certificates to those who pass an on-line test For more details, please write to contact@spoken-tutorial.org |
Slide number 12 | 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 |
This is Madhuri Ganapathi from IIT Bombay signing off. Thank you for joining. |