Difference between revisions of "LibreOffice-Suite-Math-6.3/C2/Calculus-and-Logarithms/English"
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Title: Calculus and Logarithms | Title: Calculus and Logarithms | ||
| − | Keywords: LibreOffice Math, LibreOffice Writer, derivatives, partial derivatives, differential equations, integrals, logarithms, font size, key board shortcuts, video tutorial. | + | Keywords: LibreOffice Math, LibreOffice Writer, derivatives, partial derivatives, differential equations, integrals, logarithms, font size, key board shortcuts, spoken tutorial, video tutorial. |
{| border=1 | {| border=1 | ||
| Line 29: | Line 29: | ||
|| This tutorial is recorded using: | || This tutorial is recorded using: | ||
* '''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. |
|- | |- | ||
| Line 47: | Line 47: | ||
|| | || | ||
| − | * The files used in the tutorial are provided in the''' Code files''' link. | + | * The files used in the tutorial are provided in the ''' Code files''' link. |
* 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. | ||
| Line 109: | Line 109: | ||
Point mouse over '''del '''symbol in the last '''formula '''in '''Writer '''gray box | Point mouse over '''del '''symbol in the last '''formula '''in '''Writer '''gray box | ||
| − | || We can use the ''' | + | || We can use the '''‘partial’ keyword ''' for a ''' partial derivative'''. |
| Line 196: | Line 196: | ||
|| Pause the tutorial and do this assignment. | || Pause the tutorial and do this assignment. | ||
| − | *Write the '''markup''' for following '''derivative'''. | + | * Write the '''markup''' for following '''derivative'''. |
| − | *Use '''scalable '''brackets. | + | * Use '''scalable '''brackets. |
|- | |- | ||
|| Click outside of the '''Writer '''gray box. | || Click outside of the '''Writer '''gray box. | ||
| Line 276: | Line 276: | ||
‘'''iint'''’. | ‘'''iint'''’. | ||
| − | || Let us write an example of a ''' double integral '''to calculate the area of a region. | + | || Let us write an example of a ''' double integral ''' to calculate the area of a region. |
| − | The '''formula''' is | + | The '''formula''' is shown on the screen. |
| Line 321: | Line 321: | ||
|- | |- | ||
|| | || | ||
| − | || Now let us see how to write '''formulae '''containing '''logarithms'''. | + | || Now let us see how to write '''formulae ''' containing '''logarithms'''. |
| Line 330: | Line 330: | ||
Press '''Ctrl + Enter.''' | Press '''Ctrl + Enter.''' | ||
| − | ||Click outside the | + | ||Click outside the gray box to go back to '''Writer'''. |
| Line 387: | Line 387: | ||
'''Natural logarithm of t is equal to the integral from 1 to t of 1 by x dx'''. | '''Natural logarithm of t is equal to the integral from 1 to t of 1 by x dx'''. | ||
|- | |- | ||
| − | || | + | ||Only Narration. |
|| Now let us learn about '''shortcuts'''. | || Now let us learn about '''shortcuts'''. | ||
| Line 445: | Line 445: | ||
|- | |- | ||
|| Narration only: | || Narration only: | ||
| − | || With this we | + | || With this we come to the end of this tutorial. |
| Line 453: | Line 453: | ||
'''Summary''' | '''Summary''' | ||
| − | |||
| Line 470: | Line 469: | ||
|| Here is an '''assignment '''for you | || Here is an '''assignment '''for you | ||
* Write a '''markup''' for the following '''logarithm'''. | * Write a '''markup''' for the following '''logarithm'''. | ||
| − | + | * Solve '''log 1024 ''' to the ''' base 2'''. | |
|- | |- | ||
Latest revision as of 15:15, 7 September 2022
Title: Calculus and Logarithms
Keywords: LibreOffice Math, LibreOffice Writer, derivatives, partial derivatives, differential equations, integrals, logarithms, font size, key board shortcuts, spoken tutorial, video tutorial.
| Visual Cue | Narration |
| Slide:
Title Slide |
Welcome to the spoken tutorial on Calculus and Logarithms. |
| Slide:
Learning Objectives |
In this tutorial, we will learn how to:
|
| Slide:
System Requirements |
This tutorial is recorded using:
|
| Slide: Prerequisites
https:\\spoken-tutorial.org |
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. |
| Press Ctrl + Enter to go to a new page.
|
Press Ctrl and Enter, keys to go to a new page.
|
| Click on the Insert menu >> select the Object.
From the sub-menu >> select the Formula option.
|
Let us call the Math application inside Writer.
Click on the Insert menu and select Object. From the sub-menu, select Formula. |
| Click Format menu >> Font size.
Increase size to 18 pt. |
Before we go ahead, let us increase the font size to 18 point. |
| Narration only | Let us now learn how to write derivatives and differential equations.
|
| In FEW, copy and paste:
Total Derivative: df over dx newline newline |
We have to treat the derivatives as fractions and use the markup over.
|
| In FEW, press Enter twice, copy and paste:
{partial f} over {partial x} newline newline.
|
We can use the ‘partial’ keyword for a partial derivative.
|
| In FEW, press Enter twice, copy and paste:
Newton's second law of motion describes the relationship between acceleration and force. newline.
|
Let’s write an example to show Newton’s second law of motion.
|
| In FEW, press Enter twice, copy and paste:
F(t) = m {{d^2}x } over {dt^2 } newline newline
Point mouse the last formula Writer gray box. |
Let us write an ordinary differential equation.
|
| In FEW, press Enter twice, copy and paste:
'''''''''' Newton’s Law of cooling. newline If theta of t is the temperature of an object at time t, newline then we can write a differential equation: newline d of `theta over d of t "is equal to" minus k into theta minus S. newline where S is the temperature of the surrounding environment. newline newline
Point mouse over the last formula in Writer gray box. |
Let us write the differential equation for Newton’s law of cooling.
|
| Click Save icon on the standard toolbar. | Let us save the file now. |
| Slide:
|
Pause the tutorial and do this assignment.
|
| Click outside of the Writer gray box.
|
Now let us see how to write integrals.
Click outside the Writer gray box to go to the Writer document.
|
| Type: “Integral Equations: ” and press Enter. | Type “Integrals: ” and press Enter. |
| Click on the Insert menu >> select Object.
From the submenu >> select Formula option. |
Now let us call the Math application.
|
| Click Format menu >>
Font size >> Increase size to 18 pt. |
Let’s increase the font size to 18 point . |
| In FEW, copy and paste:
an interval a, b of the real line on the x-axis, newline the definite integral is written as Integral "from" a "to" b, ` f of x dx newline newline
In FEW, point mouse over ‘int’ word in the last line And point over ‘from’ and ‘to’
|
Here is an example of an integral.
To specify the limits a and b, we have used the markup ‘from’ and ‘to’.
|
| In FEW, press Enter twice, copy and paste:
Double Integral newline iint from D p dx dy, `"where f(x,y) = p in the region D" newline newline
‘iint’. |
Let us write an example of a double integral to calculate the area of a region.
|
| Triple Integral newline
iiint_cuboid 1 dx dy dz, `"where constant function f(x, y, z) = 1" In FEW, point mouse over ‘iiint’. |
Similarly, we can use a triple integral to find the volume of a cuboid.
|
| In FEW, point mouse over the _
character in the last line
|
We can use the subscript markup to specify the Limits of the integral.
Subscript is used to place the character to the bottom right of the integral.
|
| Slide:
Assignment
{square root of x } dx.br/>
|
Pause the tutorial and do this assignment.
Write the markup for the following integrals. |
| Now let us see how to write formulae containing logarithms.
| |
| Click outside of the Writer gray box.
|
Click outside the gray box to go back to Writer.
|
| Type ‘Logarithms: ‘ and press Enter.
|
Type ‘Logarithms: ‘ and press Enter .
|
| In FEW, copy and paste:
log_10 1000 = 3 newline newline
|
A simple formula using logarithm is Log 1000 to the base 10 is equal to 3.
|
| In FEW, press Enter twice, copy and paste:
log_2 (64) = log_2 (2)^ 6 = 6 log_2 (2) = 6 (1) = 6 newline newline
In FEW, press Enter twice, copy and paste: ln(t) = int from 1 to t {1 over x} dx
|
Here is another example: Log 64 to the base 2 is equal to 6.
|
| Only Narration. | Now let us learn about shortcuts.
|
| Cursor on the interface.
|
Go to Tools menu and select Customize option.
Click the Keyboard tab to access the options for adding keyboard shortcuts. |
| Select Math radio button.
|
Select the Writer radio button at the extreme right if not selected.
|
| Click on F7 in the shortcut keys list at the top of the dialog box.
|
In the Shortcut Keys list, let us select F7.
Your keyboard shortcut will appear in the Keys list.
|
| Click OK at the bottom. | Click the OK button to save your keyboard shortcuts. |
| Ctrl + S. | Let us now save the changes. |
| Narration only: | With this we come to the end of this tutorial.
|
| Slide:
Summary
|
In this tutorial we have learnt how to:
|
| Slide:
Assignment log x to the power of p to the base b is equal to p times log x to the base b |
Here is an assignment for you
|
| Slide:
About Spoken Tutorial Project |
|
| Slide:
Spoken tutorial workshops |
|
| Slide:
Answers for THIS Spoken Tutorial |
Please post your time 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. |
