Difference between revisions of "LibreOffice-Suite-Math-6.3/C2/Greek-characters-and-Quadratic-equations/English"
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* Insert '''Greek '''characters. | * Insert '''Greek '''characters. | ||
| − | * Write steps''' '''to solve a quadratic equation. | + | * Write steps''' '''to solve a '''quadratic equation'''. |
| − | + | ||
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* '''Ubuntu Linux OS''' version 18.04 and | * '''Ubuntu Linux OS''' version 18.04 and | ||
* '''LibreOffice Suite''' version 6.3.5 | * '''LibreOffice Suite''' version 6.3.5 | ||
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If not please access the relevant tutorials on this website. | If not please access the relevant tutorials on this website. | ||
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* Please download and extract the files. | * Please download and extract the files. | ||
* Make a copy and use them for practising. | * Make a copy and use them for practising. | ||
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|- | |- | ||
| Line 57: | Line 53: | ||
|| Let us first open the '''MathExample1.odt file'''. | || Let us first open the '''MathExample1.odt file'''. | ||
|- | |- | ||
| − | || Double click on the | + | || Double click on the gray box. |
'''Math Formula Editor ''' and the '''Elements''' window opens up. | '''Math Formula Editor ''' and the '''Elements''' window opens up. | ||
| − | || Double click the ''' | + | || Double-click the gray box in the '''Writer''' window. |
| Line 74: | Line 70: | ||
| − | Click and show the '''Element Categories''' drop down. | + | Click and show the '''Element Categories''' drop-down. |
| − | In the Formula | + | In the '''Formula editor''' window (FEW in short) type: '''%pi newline''' |
|| We don’t find these '''characters ''' in the '''Elements ''' window. | || We don’t find these '''characters ''' in the '''Elements ''' window. | ||
| Line 84: | Line 80: | ||
| − | For example, to write '''pi''', we type '''%pi''' in the '''Formula | + | For example, to write '''pi''', we type '''%pi''' in the '''Formula editor'''. |
|- | |- | ||
| − | || In FEW, press Enter, type '''%alpha newline `%beta newline''' | + | || In '''FEW''', press '''Enter''', type '''%alpha newline `%beta newline''' |
|| To write '''lowercase characters''', type the name of the characters in '''lowercase'''. | || To write '''lowercase characters''', type the name of the characters in '''lowercase'''. | ||
| − | To write alpha in | + | To write '''alpha''' in lowercase, type '''%alpha''' and to write '''beta''' type '''%beta'''. |
|- | |- | ||
|| In FEW, press '''Enter''', type '''%GAMMA '''. | || In FEW, press '''Enter''', type '''%GAMMA '''. | ||
| Line 100: | Line 96: | ||
| − | To write '''gamma''' in | + | To write '''gamma''' in uppercase, type '''%GAMMA''' and to write '''theta '''type '''%THETA'''. |
|- | |- | ||
|| Click on '''Tools''' menu on top, click '''Symbols'''. | || Click on '''Tools''' menu on top, click '''Symbols'''. | ||
| Line 113: | Line 109: | ||
| − | || '''Symbols''' dialog box | + | || '''Symbols''' dialog box appears. |
| − | Under the '''Symbol ''' | + | Under the '''Symbol set''', select '''Greek ''' if not already selected. |
|- | |- | ||
|| Click on the '''Greek ''' letter alpha from the list. | || Click on the '''Greek ''' letter alpha from the list. | ||
| Line 134: | Line 130: | ||
| − | |||
| − | |||
| − | |||
|| Now click the ''' Insert''' button in the '''Symbols''' dialog box to insert the symbol. | || Now click the ''' Insert''' button in the '''Symbols''' dialog box to insert the symbol. | ||
| + | |- | ||
| + | ||Click on the '''Greek ''' letter from the box. | ||
| − | + | Click on the '''Insert ''' button in the '''Symbols''' dialog box to insert the symbol. | |
| − | Similarly insert other '''Greek''' letters given in the box. | + | ||Similarly, insert other '''Greek''' letters given in the box. |
|- | |- | ||
| Line 152: | Line 147: | ||
|- | |- | ||
|| Point towards '''symbols '''icon | || Point towards '''symbols '''icon | ||
| − | || We can also insert '''Greek ''' letters using the '''Symbols ''' icon on the '''Standard ''' | + | || We can also insert '''Greek ''' letters using the '''Symbols ''' icon on the '''Standard toolbar'''. |
|- | |- | ||
|| Click '''Save ''' on the '''standard toolbar'''. | || Click '''Save ''' on the '''standard toolbar'''. | ||
| Line 162: | Line 157: | ||
|| Pause the video and do this assignment. | || Pause the video and do this assignment. | ||
| + | *Open the '''Math-assignment.odt ''' file. | ||
| − | + | *Write the '''markup''' for this formula: | |
| − | + | ||
| − | Write the '''markup''' for this formula: | + | |
| − | + | ||
| − | + | ||
| + | :'''pi is similar or equal to 3.1415'''. | ||
| − | Using the '''Symbols ''' dialog box insert various ''' Greek ''' and special characters. | + | *Using the '''Symbols ''' dialog box insert various ''' Greek ''' and special characters. |
|- | |- | ||
| − | || Click | + | || Click anywhere in the '''Writer ''' area. |
Press '''Ctrl + Enter''' on the keyboard. | Press '''Ctrl + Enter''' on the keyboard. | ||
| − | || Let us now write the steps to solve a '''quadratic ''' | + | || Let us now write the steps to solve a '''quadratic equation'''. |
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| − | Here is the quadratic equation that we will solve, '''2''' '''x squared - 7 x + 3 = 0'''. | + | Here is the '''quadratic equation''' that we will solve, '''2''' '''x squared - 7 x + 3 = 0'''. |
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From the submenu select '''Formula''' option. | From the submenu select '''Formula''' option. | ||
| − | |||
|- | |- | ||
||Point to the equation. | ||Point to the equation. | ||
| − | ||Let’s write the markup for the '''quadratic ''' | + | ||Let’s write the '''markup''' for the '''quadratic equation''' that we want to solve. |
|- | |- | ||
|| Click on''' Format''' menu >> Select '''Font Size'''. | || Click on''' Format''' menu >> Select '''Font Size'''. | ||
| Line 243: | Line 235: | ||
| − | || In the '''Format | + | || In the '''Format editor''', type the '''markup''' as follows: 2 '''x squared minus 7 x plus 3 = 0'''. |
|- | |- | ||
| − | || Press Enter and type: | + | || Press '''Enter''' and type: |
'''Quadratic Formula: newline''' | '''Quadratic Formula: newline''' | ||
| Line 265: | Line 257: | ||
'''sqrt{b^2 – 4ac} newline newline'''. | '''sqrt{b^2 – 4ac} newline newline'''. | ||
| − | || First we will write the innermost square root function. | + | || First we will write the innermost '''square root function'''. |
| − | The markup for that is '''square root of b squared - 4ac''' in '''curly brackets'''. | + | The '''markup''' for that is '''square root of b squared - 4ac''' in '''curly brackets'''. |
|- | |- | ||
|| Type''' { -b +-''' before the above equation and''' }''' at the end. | || Type''' { -b +-''' before the above equation and''' }''' at the end. | ||
| Line 290: | Line 282: | ||
| − | Finally add '''x equal to''' at the beginning of the line. | + | Finally, add '''x equal to''' at the beginning of the line. |
|- | |- | ||
|| Type ~ before and after = sign. | || Type ~ before and after = sign. | ||
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'''~ '''symbol next to '''‘x’'''. | '''~ '''symbol next to '''‘x’'''. | ||
| − | || Add blank spaces | + | || Add blank spaces surrounding the '''equal to''' sign. |
|- | |- | ||
|| In FEW, type: | || In FEW, type: | ||
| Line 311: | Line 303: | ||
Point to the '''back quotes'''. | Point to the '''back quotes'''. | ||
| − | || Next let us type the rest of the text as follows in the '''Formula | + | || Next let us type the rest of the text as follows in the '''Formula editor'''. |
| Line 318: | Line 310: | ||
'''‘b’ is the coefficient of the x term'''. | '''‘b’ is the coefficient of the x term'''. | ||
| − | '''‘c’ is a constant ''' followed by a newline. | + | '''‘c’ is a constant ''' followed by a '''newline'''. |
Here I have added '''back quotes''' to create a small gap between the words for clarity. | Here I have added '''back quotes''' to create a small gap between the words for clarity. | ||
|- | |- | ||
| − | || '''We` can` solve` the equation` by` substituting` 2 `for `a,` -7` for` b,` 3` for` c newline newline'''. | + | || '''We` can` solve` the '''equation'''` by` substituting` 2 `for `a,` -7` for` b,` 3` for` c newline newline'''. |
|| Now type the following line. | || Now type the following line. | ||
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|- | |- | ||
| − | || Press | + | || Press '''Enter '''twice and type |
'''x~=~ {{ -(-7)+-sqrt{(-7)^2 - 4(2)(3)}}} over {2(2)} newline newline''' | '''x~=~ {{ -(-7)+-sqrt{(-7)^2 - 4(2)(3)}}} over {2(2)} newline newline''' | ||
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| − | Here we have substituted the numbers using '''parentheses ''' in the equation. | + | Here we have substituted the numbers using '''parentheses ''' in the '''equation'''. |
|- | |- | ||
||Point to the '''quadratic''' equation. | ||Point to the '''quadratic''' equation. | ||
| − | ||Now let’s solve the '''quadratic''' | + | ||Now let’s solve the '''quadratic equation''' to get the values of x. |
|- | |- | ||
|| | || | ||
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|- | |- | ||
||Narration only: | ||Narration only: | ||
| − | || With this we have come to the end of this tutorial. | + | || With this, we have come to the end of this tutorial. |
| Line 382: | Line 374: | ||
|| In this tutorial, we have learnt to: | || In this tutorial, we have learnt to: | ||
* Insert '''Greek '''characters. | * Insert '''Greek '''characters. | ||
| − | * Write steps | + | * Write steps to solve a '''quadratic''' equation. |
| − | + | ||
|- | |- | ||
| Line 393: | Line 384: | ||
Highlight the equation. | Highlight the equation. | ||
| − | || Here is an | + | || Here is an assignment for you: |
| − | + | ||
Open '''Math-assignment.odt '''file. | Open '''Math-assignment.odt '''file. | ||
| − | * Write steps to solve this quadratic equation | + | * Write steps to solve this '''quadratic equation''' |
* Format the steps by changing the alignment and spacing. | * Format the steps by changing the alignment and spacing. | ||
| − | * Add blank spaces and | + | * Add blank spaces and '''newlines''' as required. |
| − | + | ||
|- | |- | ||
| Line 419: | Line 408: | ||
* We conduct workshops using '''spoken''' '''tutorials''' and give certificates | * We conduct workshops using '''spoken''' '''tutorials''' and give certificates | ||
* For more details, please contact us. | * For more details, please contact us. | ||
| − | |||
|- | |- | ||
Revision as of 16:36, 29 June 2022
Title: Greek characters and Quadratic Equations.
Keywords: Libreoffice math, libreoffice writer, greek characters, percentage sign, markup, font size, alignment, quadratic equation, video tutorial.
| Visual Cue | Narration |
| Slide:Title | Welcome to the Spoken tutorial on Greek Characters and Quadratic Equations. |
| Slide:
Learning Objectives |
In this tutorial, we will learn to:
|
| Slide:
System Requirements
|
This tutorial is recorded using,
|
| Slide:
Prerequisites |
To follow this tutorial, learner should be familiar with Math interface.
|
| Slide:
Code Files |
|
| Open the MathExample1.odt | Let us first open the MathExample1.odt file. |
| Double click on the gray box.
|
Double-click the gray box in the Writer window.
|
| Only narration | Let us learn how to write Greek characters using Math.
Greek characters like alpha, beta and others are common in mathematical formulae. |
| Point towards the Elements window.
|
We don’t find these characters in the Elements window.
|
| In FEW, press Enter, type %alpha newline `%beta newline | To write lowercase characters, type the name of the characters in lowercase.
|
| In FEW, press Enter, type %GAMMA .
%THETA newline. |
To write uppercase characters, type the name of the characters in uppercase.
|
| Click on Tools menu on top, click Symbols. | There is yet another way to enter Greek characters.
|
| Point to the Symbols dialog box.
Select Greek under Symbols.
|
Symbols dialog box appears.
|
| Click on the Greek letter alpha from the list.
Point towards the name of the letter.
|
Click on Greek letter alpha in the box.
The name of the selected letter is shown below the box.
|
| Click on the Insert button in the Symbols dialog box to insert the symbol.
|
Now click the Insert button in the Symbols dialog box to insert the symbol. |
| Click on the Greek letter from the box.
|
Similarly, insert other Greek letters given in the box. |
| Click on the Close button. | Let’s close the Symbols dialog box, by clicking on the Close button. |
| Point to the markup for the Greek letters in the Formula editor. | Notice that the markup for the Greek letters is shown in the Formula editor. |
| Point towards symbols icon | We can also insert Greek letters using the Symbols icon on the Standard toolbar. |
| Click Save on the standard toolbar. | Let us save the file now. |
| Slide:
Assignment |
Pause the video and do this assignment.
|
| Click anywhere in the Writer area.
|
Let us now write the steps to solve a quadratic equation.
|
| Type: Solving a Quadratic Equation and press Enter twice.
Show the text editor with the equations. |
Let us type: Solving a Quadratic Equation:.
|
| Click Insert >> Select Object
>> Submenu >> Select Formula.
|
We will now call Math application.
From the submenu select Formula option. |
| Point to the equation. | Let’s write the markup for the quadratic equation that we want to solve. |
| Click on Format menu >> Select Font Size.
In the Font sizes dialog box >> Change the Base size to 16 pt >> click OK button. |
Let us change the font size to 16 point.
|
| Click on Format menu >> Select Alignment.
Under Horizontal click Centered option. Click OK button |
Let us change the alignment to Centered. |
| In FEW, type:
2x ^ 2 - 7 x + 3 = 0
|
In the Format editor, type the markup as follows: 2 x squared minus 7 x plus 3 = 0.
|
| Press Enter and type:
Quadratic Formula: newline Press Enter. |
Press Enter and type Quadratic Formula:.
|
| Only narration | It is a good practice to break down a complex formula into simple elements.
|
| Type:
sqrt{b^2 – 4ac} newline newline. |
First we will write the innermost square root function.
|
| Type { -b +- before the above equation and } at the end. | Next, let us add minus b plus or minus to the expression.
Then put the expression within curly brackets. |
| Type { before the above equation, and } at the end.
|
Let us add another set of curly brackets to make the expression a numerator.
|
| Type ~ before and after = sign.
~ = ~ Point mouse over FEW, ~ symbol next to ‘x’. |
Add blank spaces surrounding the equal to sign. |
| In FEW, type:
newline newline Where ‘a’ is` the` coefficient` of` the` x^2 term, ~b `is `the ` coefficient` of` the` x` term, ` c~ is `a` constant` newline newline
|
Next let us type the rest of the text as follows in the Formula editor.
‘b’ is the coefficient of the x term. ‘c’ is a constant followed by a newline.
|
| We` can` solve` the equation` by` substituting` 2 `for `a,` -7` for` b,` 3` for` c newline newline. | Now type the following line.
|
| Press Enter twice and type
x~=~ {{ -(-7)+-sqrt{(-7)^2 - 4(2)(3)}}} over {2(2)} newline newline
|
The markup after the substituting the values is as shown.
|
| Point to the quadratic equation. | Now let’s solve the quadratic equation to get the values of x. |
|
x~=~ {{7+-sqrt{(49- 24)}}} over 4 newline newline
|
Type the following lines to show the values of x.
|
| x~=~ 3, ~ ~ x~=~ 0.5 newline newline | Here are the values of x. |
| Ctrl + S | Let us save the changes. |
| Narration only: | With this, we have come to the end of this tutorial.
|
| Slide: Summary | In this tutorial, we have learnt to:
|
| Slide: Assignment
|
Here is an assignment for you:
Open Math-assignment.odt file.
|
| Slide:
About Spoken Tutorial Project |
|
| Slide:
Spoken tutorial workshops |
|
| Slide:
Answers for THIS Spoken Tutorial |
Please post your Timed queries in this forum. |
| Slide:
Acknowledgement |
The Spoken Tutorial project is funded by the Ministry of Education, Govt. of India. |
| Slide:
Thank you Acknowledgement to DesiCrew |
This tutorial was originally contributed by DesiCrew Solutions Pvt. Ltd. in 2011
This is Madhuri Ganapathi along with the Spoken Tutorial team from IIT Bombay. Thank you for watching. |
