Graphing Logarithm Question (1 Viewer)

SpiralFlex

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First of all you have to see what a general logarithmic curve looks like. It will look something like this.



You will see that the graph is this shape if you graph some points.



The asymptote is at and it must go past through the point . So why is the asymptote zero?

If we look at our graph and rewrite it as indice form,



If was zero, then,



This value of does not exist. Since you always get a number above zero.

Alternatively,

As [As the value tends to minus infinity, the graph approaches . A bit right of it.]





Let's think back to parabolas.

Say we have the curve . Our original graph was

We can see that the addition of 1 moves it to the left ONE unit.



Back to our curve. Applying this, we can see it will move one space to the left.

Normally that logarithmic curve will have an asmyptote at and must go through . In this case, the asymptote moves one place to the left, hence it is now at and the intercept is now at



Your graph should look something like this.

http://imageshack.us/photo/my-images/193/forstarryblue.png/

Note: Why did I plot one point? This is to avoid confusion since graphs of logarithms with different bases look similar.

Example - Unless you have a good eye, when graphing separately or , it is quite difficult to tell which graph is which, but if a point was plotted, this gives the marker a general idea.
 
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starryblue

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First of all you have to see what a general logarithmic curve looks like. It will look something like this.



You will see that the graph is this shape if you graph some points.



The asymptote is at and it must go past through the point . So why is the asymptote zero?

If we look at our graph and rewrite it as indice form,



If was zero, then,



This value of does not exist. Since you always get a number above zero.



Let's think back to parabolas.

Say we have the curve . Our original graph was

We can see that the addition of 1 moves it to the left ONE unit.



Back to our curve. Applying this, we can see it will move one space to the left.

Normally that logarithmic curve will have an asmyptote at and must go through . In this case, the asymptote moves one place, hence it is now at and the intercept is now at



Your graph should look something like this.

http://imageshack.us/photo/my-images/193/forstarryblue.png/

Note: Why did I plot one point? This is to avoid confusion since graphs of logarithms with different bases look similar.

Example - Unless you have a good eye, when graphing separately or , it is quite difficult to tell which graph is which, but if a point was plotted, this gives the marker a general idea.
oh! i get it! *sigh* i got saved by you again!
 

starryblue

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More general, if we have the curve

moves to the left units if

moves to the right units if


moves it up units if

moves it down units if
ahh == mayb i should of mentioned earlier but i knew that, it's just that i didn't know what to plot but you answered that...how about for hyperbolas? if it was eg. y=2/x, then what would u plot?
 

SpiralFlex

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ahh == mayb i should of mentioned earlier but i knew that, it's just that i didn't know what to plot but you answered that...how about for hyperbolas? if it was eg. y=2/x, then what would u plot?
Does your coaching college expect you to use the formal way to graph this? In year 10 you only do a generalised way. I will teach you the formal way in a second. When my hand does not feel sore.
 

starryblue

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Does your coaching college expect you to use the formal way to graph this? In year 10 you only do a generalised way. I will teach you the formal way in a second. When my hand does not feel sore.
O.O" there's a formal way? is that more difficult to do? btw, how do you find the range of a graph?
 

SpiralFlex

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First step is always find the and intercepts, if there are any.


and intercepts: When you let to find the intercept and to find the intercept, you can see that the value does not exist.



The next step is to find any asymptotes. It is convenient for me to find the vertical asymptote first.



VERTICAL ASYMPTOTE

Now,

A vertical asymptote occurs when the denominator equals to zero.

[That is our asymptote.]

Your graph should look like this:

http://www.mediafire.com/?faa36hb8slbncv2



Now next stage is to find how the graph behaves near the vertical asymptote.

Behaviour: To do this we must see the tendency of the curve as it approaches the asymptote to the left and to the right.



BEHAVIOUR

We will test the behaviour near its immediate left first. So what is a number close to the left of zero? I know -0.1.





[A positive number divide a negative number is a negative number.]

You get a negative number.

So,

As [As gets close to zero from the left hand side.]

[ tends to negative infinity.]


We will now test the behaviour to the immediate right. So what is a number close to the right of zero? I know 0.1.





[A positive number divide a positive number is a positive number.]

You get a positive number.

So,

As [As gets close to zero from the right hand side.]

[ tends to positive infinity.]


Your graph should look something like this:

http://www.mediafire.com/?0o2nrnamc3qc3xe


Now horizontal asymptote.



HORIZONTAL ASYMPTOTE AND TENDENCY

We must find what happens when the graph tends to positive infinity. To help you understand this, substitute a large positive number into the equation of graph. Let's use 1000.





[Something like that, we can see it's a small figure close to zero above.]

So,

As . [As approaches positive infinity.]

[ approaches zero a bit above it.]



We must find what happens when the graph tends to negative infinity. To help you understand this, substitute a large negative number into the equation of graph. Let's use -1000.





[Something like that, we can see it's a small figure close to zero below it.]

So,

As . [As approaches negative infinity.]

[ approaches zero a bit below it.]

Now your graph should look like:

http://www.mediafire.com/?h5c4kcmekh3dgcl



Now all you have to do is connect the points. Make sure you indicate a point. Use something like

http://www.mediafire.com/?d8uuceefrz5t3nc
 
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starryblue

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First step is always find the and intercepts, if there are any.


and intercepts: When you let[ to find the intercept and to find the intercept, you can see that the value does not exist.

The next step is to find any asymptotes. It is convenient for me to find the vertical asymptote first.

Vertical asymptote:

Now,

A vertical asymptote occurs when the denominator equals to zero.

[That is our asymptote.]

Your graph should look like this:


Now next stage is to find how the graph behaves near the vertical asymptote.

Behaviour: To do this we must see the tendency of the curve as it approaches the asymptote to the left and to the right.


We will test the behaviour near its immediate left first. So what is a number close to the left of zero? I know -0.1.





[A positive number divide a positive number is a positive number.]

You get a positive number.

So,

As [As gets close to zero from the left hand side.]

[ tends to positive infinity.]

EDITING: Don't read until I am done and finished editing my mistakes.
oh ok, no wonder it doesn't make sense...do you need to dot x=0 since its the asymptote?
 

starryblue

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Should be okay to read now, I will see if I made any silly errors.
you rote: We will test the behaviour near its immediate left first. So what is a number close to the left of zero? I know -0.1.





[A positive number divide a positive number is a positive number.]

You get a positive number.

umm....wouldn't it be a positive number divided by a negative number since you said the left of 0, ie. -0.1?
 

SpiralFlex

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you rote: We will test the behaviour near its immediate left first. So what is a number close to the left of zero? I know -0.1.




[A positive number divide a positive number is a positive number.]

You get a positive number.

umm....wouldn't it be a positive number divided by a negative number since you said the left of 0, ie. -0.1?
Where did I write that? Quote and bold it.
 

starryblue

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First step is always find the and intercepts, if there are any.


and intercepts: When you let to find the intercept and to find the intercept, you can see that the value does not exist.



The next step is to find any asymptotes. It is convenient for me to find the vertical asymptote first.



VERTICAL ASYMPTOTE

Now,

A vertical asymptote occurs when the denominator equals to zero.

[That is our asymptote.]

Your graph should look like this:

http://www.mediafire.com/?faa36hb8slbncv2



Now next stage is to find how the graph behaves near the vertical asymptote.

Behaviour: To do this we must see the tendency of the curve as it approaches the asymptote to the left and to the right.



BEHAVIOUR

We will test the behaviour near its immediate left first. So what is a number close to the left of zero? I know -0.1.





[A positive number divide a negative number is a negative number.]

You get a negative number.

So,

As [As gets close to zero from the left hand side.]

[ tends to negative infinity.]


We will now test the behaviour to the immediate right. So what is a number close to the right of zero? I know 0.1.





[A positive number divide a positive number is a positive number.]

You get a positive number.

So,

As [As gets close to zero from the right hand side.]

[ tends to positive infinity.]


Your graph should look something like this:

http://www.mediafire.com/?0o2nrnamc3qc3xe


Now horizontal asymptote.



HORIZONTAL ASYMPTOTE AND TENDENCY

We must find what happens when the graph tends to positive infinity. To help you understand this, substitute a large positive number into the equation of graph. Let's use 1000.





[Something like that, we can see it's a small figure close to zero above.]

So,

As . [As approaches positive infinity.]

[ approaches zero a bit above it.]



We must find what happens when the graph tends to negative infinity. To help you understand this, substitute a large negative number into the equation of graph. Let's use -1000.





[Something like that, we can see it's a small figure close to zero below it.]

So,

As . [As approaches negative infinity.]

[ approaches zero a bit below it.]

Now your graph should look like:

http://www.mediafire.com/?h5c4kcmekh3dgcl



Now all you have to do is connect the points. Make sure you indicate a point. Use something like

http://www.mediafire.com/?d8uuceefrz5t3nc
==" i swear it was something else before~ nvm i got it! tys~
 

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