3Tvwo §9.3 Fractional functions

§9.3 Fractional functions

We start with an example!

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Slide 1: Slide

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This lesson contains 24 slides, with interactive quizzes, text slides and 1 video.

Lesson duration is: 50 min

Items in this lesson

§9.3 Fractional functions

We start with an example!

Slide 1 - Slide

This is a special table.

If x = 2 is MULTIPLIED by 5 you get 10, then y = 25 is DIVIDED by 5 and so it becomes 5.

One more time:

If x = 1 is MULTIPLIED by 4 you get 4 , then y = 50 is DIVIDED by 4 so it becomes 12.5

What a typical pattern, isn't it?

Slide 2 - Slide

There is another pattern as far as calculations from this table are concerned.

Write down 2 or 3 short calculations from the table, that all give the same outcome!

Remember them carefully and key in your findings in the next slide!

Slide 3 - Slide

2 or 3 calculations with the same outcome:

Slide 4 - Mind map

5 multiplications (products) with the same outcome:

Slide 5 - Slide

Because the product is 50 all the time, you can turn this

into a formula. This formula can have 3 different forms:

Slide 6 - Slide

We call this an 'INVERSELY PROPORTIONAL'

relation.

Question: What is 'INVERSELY PROPORTIONAL' called in Dutch?

KEY IN in the

next slide!

Slide 7 - Slide

inversely proportional
is in Dutch: .......

Slide 8 - Mind map

^{In words: Inversely proportional is:}

^{'omgekeerd evenredig' in Dutch.}

Slide 9 - Slide

Slide 10 - Slide

Task:

Write as two other formulas (the point means 'times'):

a \cdot b = 15

Slide 11 - Slide

a \cdot b = 15

means the same as
(2 other formulas!):

Slide 12 - Mind map

Solution:

means the same as: or:

a \cdot b = 15

a = \frac{​ 1 5 ​ ​}{​ b ​}

b = \frac{​ 1 5 ​ ​}{​ a ​}

Slide 13 - Slide

'c is a constant number', it says above. You might wonder: aren't x and y

constants too? Well no, x and y are VARIABLES. This means they vary in value.

However c is the same value all the time!

Here follows an example, where c = 50 :

Slide 14 - Slide

Slide 15 - Slide

For your good understanding:

This is

+ an inversely proportional relation and easily changed into:

+ a fractional function, too!

y = \frac{​ 5 0 ​ ​}{​ x ​}

Slide 16 - Slide

Functions have come back!

(I wonder if you missed them anyway...)

When we change y =

into f( ) =

we turn it into a FUNCTION!

\frac{​ 4 ​ ​}{​ x ​}

x

\frac{​ 4 ​ ​}{​ x ​}

\frac{​ 3 ​ ​}{​ x ​}

\frac{​ 3 ​ ​}{​ x ​}

Slide 17 - Slide

GRAPHS ........

You might wonder by now:

What does the GRAPH for:

f( ) = look like? Next slide shows you the remarkable shape it has!

\frac{​ 3 ​ ​}{​ x ​}

x

Slide 18 - Slide

Awesome, isn't it?

Slide 19 - Slide

A good explanation about this graph is given in the Movie from the next slide!

+ This LessonUp I will share with you, so that

+ You can watch this Feelgood Movie later,

+ Pausing whenever you like

Slide 20 - Slide

Slide 21 - Video

By the way....

+ I hope it is all clear to you now

+ If not, by doing §9.3 by yourself and every little step you

take, leads to the same content as we have just seen.

The memory of whatever you've picked up now will help you, doing

§9.3 now!

Slide 22 - Slide

Let's stay together for a while.

+ I ask you to start right now,

doing §9.3

+ by staying a little longer,

you can ask me questions by:

a. mike

b. chat

c. mail

Slide 23 - Slide

Homework time

§ 9.3 Fractional functions

You may skip:

+ Introduction p.62, on top

+ exercise 19

+ do not skip the Theory, p.62!

+ Hand in pics of your Homewerk on GoogleClassroom.

Slide 24 - Slide

3Tvwo §9.3 Fractional functions

Items in this lesson

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Slide 4 - Mind map

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Slide 8 - Mind map

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Slide 12 - Mind map

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