LibreOffice-Suite-Math/C2/Derivatives-Differential-Equations-Integral-Equations-Logarithms/English

Spoken tutorial on LibreOffice Math

Learning Objectives

• Write Derivatives and Differential equations

• Write Integral equations

• Write Formulae with Logarithms

In this tutorial, we will learn how to write

Derivatives and Differential equations

Integral equations

And Formulae with Logarithms

Press Control - Enter to go to a new page

Type “Derivatives and Differential Equations: ” in Writer on this fresh page. Press enter twice.

Click Insert > Object > Formula

Now type “Derivatives and Differential Equations: ” and press the Enter key twice.

Now let us call Math by clicking Insert menu, then Object and then Formula.

Click Format menu > Alignment, choose left option

All pink coloured text goes into Formula Editor Window (FEW in short)

Change the alignment to the left

and add newlines and blank lines in between each of our examples for better readability.

Let us now learn how to write Derivatives and differential equations.

df over dx newline newline

In FEW, point mouse over above mark up.

In FEW, press enter twice, copy and paste:

{partial f} over {partial x} newline newline

In FEW, point mouse over curly brackets in the last mark up.

Point mouse over del symbol in the last formula in Writer gray box

In FEW, press enter twice, copy and paste:

F = ma newline newline

In FEW, press enter twice, copy and paste:

F(t) = m {{d^2}x } over {dt^2 } newline newline

In FEW, point mouse over curly brackets in the last line

Point mouse the last formula Writer gray box

In FEW, press enter twice, copy and paste:

{d %theta} over dt ~=~ -k(%theta – S) newline newline

Point mouse over the last formula in Writer gray box

We just have to treat them like a fraction, and use the mark up ‘over’.

For example, to write a total derivative, df by dx, the mark up is 'df over dx' in the Formula Editor Window.

Next, for a partial derivative, we can use the word ‘partial’.

And the markup looks like: del f over del x.

We have to use curly brackets when we use the mark up ‘partial’

Notice the del symbol for partial derivatives in the Writer gray box.

Here is another example: Newton's second law of motion

which describes the relationship between acceleration and force

F is equal to m a.

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.

Notice that we have used various sets of curly brackets to state the order of operation.

And the equation looks like as shown on the screen

Here is another example of a differential equation.

Newton’s law of cooling.

If theta of t is the temperature of an object at time t, then we can write a differential equation:

d of theta over d of t is equal to minus k into theta minus S

where S is the temperature of the surrounding environment.

Notice the equation in the Writer gray box.

Press Control Enter

Type: “Integral Equations: ” and press enter twice

Click Insert > Object > Formula

Click Format menu > Font size. Increase size to 18 pt.

Click Format menu > Alignment, chooses left option

In FEW, copy and paste:

int from a to b f(x) dx newline newline

In FEW, point mouse over ‘int’ word in the last line

And point over ‘from’ and ‘to’

Point mouse over the last formula in Writer gray box

In FEW, press enter twice, copy and paste:

iint from D p dx dy, "where f(x,y) = p in the region D" newline newline

In FEW, point mouse over ‘i i n t’.

iiint_cuboid 1 dx dy dz, "where constant function f(x, y, z) = 1"

In FEW, point mouse over ‘i i i n t’.

In FEW, point mouse over the _ character in the last line

Point mouse over the last 3 formulae in Writer gray box

And let us go to a new page by clicking three times slowly outside the Writer gray box

And then press Control Enter.

Type “Integral Equations: ” and press enter twice.

Now, let us call Math from the Insert Object menu;

increase the font size to 18 point

and change the alignment to the left.

To write an integral symbol, we just need to use the mark up “int” in the Formula Editor Window.

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.

We have used the mark up ‘int’ to denote the integral symbol.

To specify the limits a and b, we have used the mark up ‘from’ and ‘to’.

Notice the formula in the Writer gray box.

Next let us write an example double integral formula to calculate the volume of a cuboid.

And the formula is as shown on the screen.

As we can see, the mark up for a double integral is ‘i i n t’. Simple.

Similarly, we can also use a triple integral to find the volume of a cuboid.

And the mark up for a triple integral is ‘i i i n t’.

We can also use the subscript mark up to specify Limits of the integral.

Using the subscript, Math places the character to the bottom right of the integral.

So these are the ways we can write integral formulae and equations in Math.

Type ‘Logarithms: ‘ and press enter twice.

Click Insert > Object > Formula

Click Format>Font Size. Make it 18pt. Then Click Format>Alignment. Choose Left.

In FEW, copy and paste:

log_10 1000 = 3 newline newline

In FEW, point mouse over above mark up

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

Point mouse over last formula in the Writer gray box

In FEW, point mouse over mark up in the last line

Click File > Save

Let us write these in a fresh Math gray box or Math object.

Type ‘Logarithms: ‘ and press Enter twice.

Call Math again;

and change the font to 18 point

and align them to the left.

A simple formula using logarithm is Log 1000 to the base 10 is equal to 3.

Notice the mark up here.

Here is another example: Log 64 to the base 2 is equal to 6.

Let us now write the integral representation of the natural logarithm .

The natural logarithm of t is equal to the integral of 1 by x dx from 1 to t.

And the mark up looks like as shown on the screen.

Let us save our examples.

Assignment:

1. Write the following derivative formula:

d squared y by d x squared is equal to d by dx of ( dy by dx). Use scalable brackets.

2. Write the following integral:

Integral with limits 0 to 1 of {square root of x } dx.

3. Write a double integral as follows:

Double integral from T { 2 Sin x – 3 y cubed + 5 } dx dy

4. Using the formula: log x to the power of p to the base b is equal to p into log x to the base b;

solve log 1024 to the base 2

Use formatting options provided by Math for better readability

1. Write the following derivative formula:

d squared y by d x squared is equal to d by dx of ( dy by dx).

Use scalable brackets.

2. Write the following integral:

Integral with limits 0 to 1 of {square root of x } dx.

Next, write a double integral as follows:

Double integral from T of { 2 Sin x – 3 y cubed + 5 } dx dy

And using the formula:

log x to the power of p to the base b

is equal to p into log x to the base b;

solve log 1024 to the base 2

Format your formulae.

Summary:

• Write Derivatives and Differential equations

• Write Integral equations

• Write Formulae with Logarithms

To summarize, we learned how to write:

Derivatives and Differential equations

Integral equations

And Formulae with Logarithms

This project is co-ordinated by http://spoken-tutorial.org. More information on the same is available at the following link http://spoken-tutorial.org/NMEICT-Intro.

This script has been contributed by Priya Suresh, Desicrew Solutions, Chennai) and this is (the name of the narrator and affiliation and place) signing off. Thanks for joining.