Difference between revisions of "LibreOffice-Suite-Math/C2/Derivatives-Differential-Equations-Integral-Equations-Logarithms/English-timed"
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| − | ||Welcome to the Spoken tutorial on LibreOffice Math. | + | ||Welcome to the '''Spoken tutorial''' on '''LibreOffice Math'''. |
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||00:05 | ||00:05 | ||
| − | ||In this tutorial, we will learn how to write Derivatives and Differential equations | + | ||In this tutorial, we will learn how to write: |
| + | * '''Derivatives''' and '''Differential equations''' | ||
| + | * '''Integral equations''' and | ||
| + | * Formulae with '''Logarithm'''s. | ||
|- | |- | ||
||00:17 | ||00:17 | ||
| − | ||For this, let us first open our example Writer document that we created in our previous tutorials | + | ||For this, let us first open our example '''Writer document''' that we created in our previous tutorials- 'MathExample1.odt'. |
|- | |- | ||
||00:29 | ||00:29 | ||
| − | ||Here let us scroll to the last page of the document and press Control Enter to go to a new page. | + | ||Here, let us scroll to the last page of the document and press '''Control, Enter''' to go to a new page. |
|- | |- | ||
||00:37 | ||00:37 | ||
| − | ||Now type “Derivatives and Differential Equations: ” and press the Enter key twice. | + | ||Now, type: “Derivatives and Differential Equations: ” and press the '''Enter''' key twice. |
|- | |- | ||
||00:45 | ||00:45 | ||
| − | ||Now let us call Math by clicking Insert menu, then Object and then Formula. | + | ||Now, let us call '''Math''' by clicking '''Insert''' menu, then '''Object''' and then '''Formula'''. |
|- | |- | ||
||00:54 | ||00:54 | ||
| − | ||Before we go ahead, let us increase the font size to 18 point. | + | ||Before we go ahead, let us increase the font-size to 18 point. |
|- | |- | ||
||01:00 | ||01:00 | ||
| − | ||Change the alignment to the | + | ||Change the '''alignment''' to the '''Left''' |
|- | |- | ||
||01:03 | ||01:03 | ||
| − | ||and add | + | ||and add '''newline'''s and blank lines in between each of our examples for better readability. |
|- | |- | ||
||01:11 | ||01:11 | ||
| − | ||Let us now learn how to write Derivatives and differential equations. | + | ||Let us now learn how to write '''Derivatives''' and '''differential equations'''. |
|- | |- | ||
||01:19 | ||01:19 | ||
| − | ||Math provides a very easy way of writing these formulae or equations. | + | ||'''Math''' provides a very easy way of writing these formulae or equations. |
|- | |- | ||
||01:25 | ||01:25 | ||
| − | ||We just have to treat them like a fraction | + | ||We just have to treat them like a fraction and use the '''mark up''' ‘over’. |
|- | |- | ||
||01:33 | ||01:33 | ||
| − | ||For example | + | ||For example- to write a '''total derivative''', df by dx, the '''mark up''' is 'df over dx' in the '''Formula Editor Window'''. |
|- | |- | ||
||01:50 | ||01:50 | ||
| − | ||Next, for a partial derivative, we can use the word ‘partial’.And the markup looks like: del f over del x. | + | ||Next, for a '''partial derivative''', we can use the word ‘partial’. And the '''markup''' looks like: "del f over del x". |
|- | |- | ||
||02:02 | ||02:02 | ||
| − | ||We have to use the curly brackets when we use the mark up ‘partial’ | + | ||We have to use the curly brackets when we use the mark up ‘partial’. |
|- | |- | ||
||02:08 | ||02:08 | ||
| − | ||Notice the del symbol for partial derivatives in the Writer gray box. | + | ||Notice the 'del' symbol for '''partial derivatives''' in the '''Writer gray box'''. |
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||02:26 | ||02:26 | ||
| − | ||F is equal to m a. | + | ||'''F is equal to m a'''. |
|- | |- | ||
||02:30 | ||02:30 | ||
| − | ||This can be written as an ordinary differential equation as:F of t is equal to m into d squared x over d t squared. | + | ||This can be written as an ordinary differential equation as: '''F of t is equal to m into d squared x over d t squared'''. |
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||02:56 | ||02:56 | ||
| − | ||And the equation looks like as shown on the screen | + | ||And the equation looks like as shown on the screen. |
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||03:18 | ||03:18 | ||
| − | ||d of theta over d of t is equal to minus k into theta minus S | + | ||'''d of theta over d of t is equal to minus k into theta minus S''' |
|- | |- | ||
||03:30 | ||03:30 | ||
| − | ||where S is the temperature of the surrounding environment. | + | ||where 'S' is the temperature of the surrounding environment. |
|- | |- | ||
||03:35 | ||03:35 | ||
| − | ||Notice the equation in the Writer gray box. | + | ||Notice the equation in the '''Writer gray box'''. |
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||03:39 | ||03:39 | ||
| − | ||Let us save our work now. Go to File and click on Save. | + | ||Let us '''save''' our work now. Go to '''File''' and click on '''Save'''. |
|- | |- | ||
||03:45 | ||03:45 | ||
| − | ||Now let us see how to write Integral equations. | + | ||Now let us see how to write '''Integral equations'''. |
|- | |- | ||
||03:50 | ||03:50 | ||
| − | ||And let us go to a new page by clicking three times slowly outside the Writer gray box | + | ||And, let us go to a new page by clicking three times slowly outside the '''Writer gray box''' |
|- | |- | ||
||03:58 | ||03:58 | ||
| − | || | + | ||and then press '''Control, Enter'''. |
|- | |- | ||
||04:03 | ||04:03 | ||
| − | ||Type “Integral Equations: ” | + | ||Type: “Integral Equations: ” |
|- | |- | ||
||04:06 | ||04:06 | ||
| − | ||and press | + | ||and press '''Enter''' twice. |
|- | |- | ||
||04:11 | ||04:11 | ||
| − | ||Now, let us call Math from the Insert Object menu; | + | ||Now, let us call '''Math''' from the '''Insert Object''' menu; |
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||04:22 | ||04:22 | ||
| − | ||and change the alignment to the left. | + | ||and change the '''alignment''' to the left. |
|- | |- | ||
||04:25 | ||04:25 | ||
| − | ||To write an integral symbol, we just need to use the mark up “int” in the Formula Editor Window. | + | ||To write an '''integral''' symbol, we just need to use the '''mark up''' “int” in the '''Formula Editor Window'''. |
|- | |- | ||
||04:35 | ||04:35 | ||
| − | ||So, given a function f of a real variable x and an interval a, b of the real line on the x-axis, the definite integral is written as Integral from a to b f of x dx. | + | ||So, given a function f of a real variable x and an interval a, b of the real line on the x-axis, the definite integral is written as '''Integral from a to b f of x dx'''. |
|- | |- | ||
||04:58 | ||04:58 | ||
| − | ||We have used the mark up ‘int’ to denote the integral symbol. | + | ||We have used the '''mark up''' ‘int’ to denote the '''integral''' symbol. |
|- | |- | ||
||05:04 | ||05:04 | ||
| − | ||To specify the limits a and b, we have used the mark up ‘from’ and ‘to’. | + | ||To specify the '''limits''' 'a' and 'b', we have used the '''mark up''' ‘from’ and ‘to’. |
|- | |- | ||
||05:13 | ||05:13 | ||
| − | ||Notice the formula in the Writer gray box. | + | ||Notice the formula in the '''Writer gray box'''. |
|- | |- | ||
||05:17 | ||05:17 | ||
| − | ||Next let us write an example double integral formula to calculate the volume of a cuboid. | + | ||Next, let us write an example '''double integral formula''' to calculate the volume of a cuboid. |
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||05:30 | ||05:30 | ||
| − | ||As we can see, the mark up for a double integral is ‘i i n t’. Simple. | + | ||As we can see, the '''mark up''' for a '''double integral''' is ‘i i n t’. Simple.. |
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||05:46 | ||05:46 | ||
| − | ||And the mark up for a triple integral is ‘i i i n t’. | + | ||And the '''mark up''' for a triple integral is ‘i i i n t’. |
|- | |- | ||
||05:52 | ||05:52 | ||
| − | ||We can also use the subscript mark up to specify Limits of an integral. | + | ||We can also use the '''subscript mark up''' to specify '''Limits''' of an '''integral'''. |
|- | |- | ||
||06:00 | ||06:00 | ||
| − | ||Using the subscript, Math places the character to the bottom right of the integral. | + | ||Using the '''subscript''', '''Math''' places the character to the bottom right of the integral. |
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||06:06 | ||06:06 | ||
| − | ||So these are the ways we can write integral formulae and equations in Math. | + | ||So, these are the ways we can write integral formulae and equations in Math. |
|- | |- | ||
||06:13 | ||06:13 | ||
| − | ||Now let us see how to write formulae containing | + | ||Now, let us see how to write formulae containing '''logarithm'''s. |
|- | |- | ||
||06:19 | ||06:19 | ||
| − | ||Let us write these in a fresh Math gray box or Math object. | + | ||Let us write these in a fresh '''Math gray box''' or '''Math object'''. |
|- | |- | ||
||06:24 | ||06:24 | ||
| − | ||Type ‘Logarithms: ‘ and press Enter twice. | + | ||Type ‘Logarithms: ‘ and press '''Enter''' twice. |
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||06:29 | ||06:29 | ||
| − | ||Call | + | ||Call Math again; |
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||06:39 | ||06:39 | ||
| − | ||and align them to the left. | + | ||and '''align''' them to the left. |
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||06:42 | ||06:42 | ||
| − | ||A simple formula using logarithm is Log 1000 to the base 10 is equal to 3. | + | ||A simple formula using '''logarithm''' is '''Log 1000 to the base 10 is equal to 3'''. |
|- | |- | ||
||06:52 | ||06:52 | ||
| − | ||Notice the mark up here. | + | ||Notice the '''mark up''' here. |
|- | |- | ||
||06:55 | ||06:55 | ||
| − | ||Here is another example: Log 64 to the base 2 is equal to 6. | + | ||Here is another example: '''Log 64 to the base 2 is equal to 6'''. |
|- | |- | ||
||07:03 | ||07:03 | ||
| − | ||Let us now write the integral representation of the natural logarithm . | + | ||Let us now write the '''integral''' representation of the '''natural logarithm'''. |
|- | |- | ||
||07:10 | ||07:10 | ||
| − | ||The natural logarithm of t is equal to the integral of 1 by x dx from 1 to t. | + | ||The '''natural logarithm of t is equal to the integral of 1 by x dx from 1 to t.''' |
|- | |- | ||
||07:20 | ||07:20 | ||
| − | ||And the mark up looks like as shown on the screen. | + | ||And the '''mark up''' looks like as shown on the screen. |
|- | |- | ||
||07:25 | ||07:25 | ||
| − | ||Let us save our examples. | + | ||Let us '''save''' our examples. |
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||07:35 | ||07:35 | ||
| − | ||d squared y by d x squared is equal to d by dx of ( dy by dx). | + | ||'''d squared y by d x squared is equal to d by dx of ( dy by dx)'''. |
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||07:53 | ||07:53 | ||
| − | ||Integral with limits 0 to 1 of {square root of x } dx. | + | ||'''Integral with limits 0 to 1 of {square root of x } dx'''. |
|- | |- | ||
||08:04 | ||08:04 | ||
| − | ||Next, write a double integral as follows: | + | ||Next, write a '''double integral''' as follows: |
|- | |- | ||
||08:09 | ||08:09 | ||
| − | ||Double integral from T of { 2 Sin x – 3 y cubed + 5 } dx dy | + | ||'''Double integral from T of { 2 Sin x – 3 y cubed + 5 } dx dy'''. |
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||08:25 | ||08:25 | ||
| − | ||log x to the power of p to the base b is equal to p into log x to the base b | + | ||'''log x to the power of p to the base b is equal to p into log x to the base b''' |
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||08:35 | ||08:35 | ||
| − | ||solve log 1024 to the base 2 | + | ||solve '''log 1024 to the base 2'''. |
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||08:43 | ||08:43 | ||
| − | ||This brings us to the end of this tutorial on writing Differential and Integral equations and logarithms in LibreOffice Math. | + | ||This brings us to the end of this tutorial on '''writing Differential and Integral equations and logarithms''' in '''LibreOffice Math'''. |
|- | |- | ||
||08:52 | ||08:52 | ||
| − | ||To summarize, we learned how to write:Derivatives and Differential equations | + | ||To summarize, we learned how to write: Derivatives and Differential equations. |
|- | |- | ||
||08:58 | ||08:58 | ||
| − | ||Integral equations | + | ||* Integral equations and *Formulae with Logarithms. |
|- | |- | ||
||09:02 | ||09:02 | ||
| − | ||Spoken Tutorial | + | ||'''Spoken Tutorial''' project is a part of the '''Talk to a Teacher''' project, |
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||09:13 | ||09:13 | ||
| − | ||This project is | + | ||This project is coordinated by http://spoken-tutorial.org. |
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||09:24 | ||09:24 | ||
| − | ||This | + | ||This script has been contributed by Priya Suresh, DesiCrew Solutions. And this is Soundharya, DesiCrew Solutions signing off. |
| − | + | Thanks for joining. | |
| − | And this is | + | |
| − | + | ||
| − | Thanks for joining | + | |
|- | |- | ||
Revision as of 23:02, 15 October 2015
| Time | Narration |
| 00:01 | Welcome to the Spoken tutorial on LibreOffice Math. |
| 00:05 | In this tutorial, we will learn how to write:
|
| 00:17 | For this, let us first open our example Writer document that we created in our previous tutorials- 'MathExample1.odt'. |
| 00:29 | Here, let us scroll to the last page of the document and press Control, Enter to go to a new page. |
| 00:37 | Now, type: “Derivatives and Differential Equations: ” and press the Enter key twice. |
| 00:45 | Now, let us call Math by clicking Insert menu, then Object and then Formula. |
| 00:54 | Before we go ahead, let us increase the font-size to 18 point. |
| 01:00 | Change the alignment to the Left |
| 01:03 | and add newlines and blank lines in between each of our examples for better readability. |
| 01:11 | Let us now learn how to write Derivatives and differential equations. |
| 01:19 | Math provides a very easy way of writing these formulae or equations. |
| 01:25 | We just have to treat them like a fraction and use the mark up ‘over’. |
| 01:33 | For example- to write a total derivative, df by dx, the mark up is 'df over dx' in the Formula Editor Window. |
| 01:50 | Next, for a partial derivative, we can use the word ‘partial’. And the markup looks like: "del f over del x". |
| 02:02 | We have to use the curly brackets when we use the mark up ‘partial’. |
| 02:08 | Notice the 'del' symbol for partial derivatives in the Writer gray box. |
| 02:14 | Here is another example: Newton's second law of motion |
| 02:21 | which describes the relationship between acceleration and force |
| 02:26 | F is equal to m a. |
| 02:30 | This can be written as an ordinary differential equation as: F of t is equal to m into d squared x over d t squared. |
| 02:45 | Notice that we have used various sets of curly brackets to state the order of operation. |
| 02:56 | And the equation looks like as shown on the screen. |
| 03:01 | Here is another example of a differential equation. |
| 03:05 | Newton’s law of cooling. |
| 03:08 | If theta of t is the temperature of an object at time t, then we can write a differential equation: |
| 03:18 | d of theta over d of t is equal to minus k into theta minus S |
| 03:30 | where 'S' is the temperature of the surrounding environment. |
| 03:35 | Notice the equation in the Writer gray box. |
| 03:39 | Let us save our work now. Go to File and click on Save. |
| 03:45 | Now let us see how to write Integral equations. |
| 03:50 | And, let us go to a new page by clicking three times slowly outside the Writer gray box |
| 03:58 | and then press Control, Enter. |
| 04:03 | Type: “Integral Equations: ” |
| 04:06 | and press Enter twice. |
| 04:11 | Now, let us call Math from the Insert Object menu; |
| 04:17 | increase the font size to 18 point |
| 04:22 | and change the alignment to the left. |
| 04:25 | To write an integral symbol, we just need to use the mark up “int” in the Formula Editor Window. |
| 04:35 | So, given a function f of a real variable x and an interval a, b of the real line on the x-axis, the definite integral is written as Integral from a to b f of x dx. |
| 04:58 | We have used the mark up ‘int’ to denote the integral symbol. |
| 05:04 | To specify the limits 'a' and 'b', we have used the mark up ‘from’ and ‘to’. |
| 05:13 | Notice the formula in the Writer gray box. |
| 05:17 | Next, let us write an example double integral formula to calculate the volume of a cuboid. |
| 05:26 | And the formula is as shown on the screen. |
| 05:30 | As we can see, the mark up for a double integral is ‘i i n t’. Simple.. |
| 05:38 | Similarly, we can also use a triple integral to find the volume of a cuboid. |
| 05:46 | And the mark up for a triple integral is ‘i i i n t’. |
| 05:52 | We can also use the subscript mark up to specify Limits of an integral. |
| 06:00 | Using the subscript, Math places the character to the bottom right of the integral. |
| 06:06 | So, these are the ways we can write integral formulae and equations in Math. |
| 06:13 | Now, let us see how to write formulae containing logarithms. |
| 06:19 | Let us write these in a fresh Math gray box or Math object. |
| 06:24 | Type ‘Logarithms: ‘ and press Enter twice. |
| 06:29 | Call Math again; |
| 06:35 | and change the font to 18 point |
| 06:39 | and align them to the left. |
| 06:42 | A simple formula using logarithm is Log 1000 to the base 10 is equal to 3. |
| 06:52 | Notice the mark up here. |
| 06:55 | Here is another example: Log 64 to the base 2 is equal to 6. |
| 07:03 | Let us now write the integral representation of the natural logarithm. |
| 07:10 | The natural logarithm of t is equal to the integral of 1 by x dx from 1 to t. |
| 07:20 | And the mark up looks like as shown on the screen. |
| 07:25 | Let us save our examples. |
| 07:29 | Here is an assignment for you: |
| 07:31 | Write the following derivative formula: |
| 07:35 | d squared y by d x squared is equal to d by dx of ( dy by dx). |
| 07:47 | Use scalable brackets. |
| 07:51 | Write the following integral: |
| 07:53 | Integral with limits 0 to 1 of {square root of x } dx. |
| 08:04 | Next, write a double integral as follows: |
| 08:09 | Double integral from T of { 2 Sin x – 3 y cubed + 5 } dx dy. |
| 08:23 | And using the formula: |
| 08:25 | log x to the power of p to the base b is equal to p into log x to the base b |
| 08:35 | solve log 1024 to the base 2. |
| 08:41 | Format your formulae. |
| 08:43 | This brings us to the end of this tutorial on writing Differential and Integral equations and logarithms in LibreOffice Math. |
| 08:52 | To summarize, we learned how to write: Derivatives and Differential equations. |
| 08:58 | * Integral equations and *Formulae with Logarithms. |
| 09:02 | Spoken Tutorial project is a part of the Talk to a Teacher project, |
| 09:06 | supported by the National Mission on Education through ICT, MHRD, Government of India. |
| 09:13 | This project is coordinated by http://spoken-tutorial.org. |
| 09:18 | More information on the same is available at the following link. |
| 09:24 | This script has been contributed by Priya Suresh, DesiCrew Solutions. And this is Soundharya, DesiCrew Solutions signing off.
Thanks for joining. |
