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Posted

Hi there

 

If i had a function in the format

cos(ln(x+1)) =0

how would i go about trying to solve for the solutions (roots)

I can see there are three roots but i'm not sure how to solve it.

 

ps. how do you solve secx(2sec^2x-1)=0

as ih happens i know it has no solutions, but how would i go about showing this. where can i look this stuff up

 

thanks guys!

Posted

Your first one looks like it would boil down to x=earccos(0)-1. There should be an infinite number of solutions since the cos(x)=0 at every point pi/2+npi where n is an integer.

Posted

if: cos(ln(x+1)) = 0

 

use: 0 = cos(pi/2 + n*pi)

 

cos(ln(x+1)) = cos(pi/2 + n*pi)

ln(x+1) = pi/2 + n*pi

x+1 = e^(pi/2 + n*pi)

 

therefor: x = e^(pi/2 + n*pi) - 1

 

I believe that's it. But correct me if I'm wrong. I'm just a poor biochemist who tried to escape math a long time ago

Posted

thanks guys!!!

I only just realised that i had to treat the two parts cosx=o and ln(x+1) as separate functions. Sorry i'm new to this type of stuff.

I find problems with solving a function that is not equal to 0

ie. secx(2secx^2-1)=-1

 

what do i do with this beauty to find its solutions? is it secx=-1 and secx=sqrt-2 ,which is impossible?

Posted

Yeah, you can only set the factors equal to the other side when the other side is zero. That's because only zero has the identity 0X=0 for all X's. So I would start by moving the secx to the other side which gives -1/secx, or -cosx. So now the equation is 2sec2x-1=-cosx or 2sec2x=1-cosx if you prefer. From there, I would look through yourdad's thread on trig identities and see what you can come up through manipulation:

http://www.scienceforums.net/forums/showthread.php?t=9608

Posted

cheers for the help!

 

so

secx(2sec^2-1)=-1

=> 2sec^2-1 =-cosx 'using tan^2x+1=sec^2

2(1+tan^2x)-1=-cosx

2+2sin^2x/cos^2x=-cosx 'using tan^2x=sin^2x/cos^2x

2(cos^2x+sin^2x)=-cos^2x ' using c^2+s^2=1

-2=cos^3x

 

that seems to be it. but i don't see how it could be that. if between -pi and pi, then there would be toooo many solutions! hundreds even! no?

Posted
2(1+tan^2x)-1=-cosx

2+2sin^2x/cos^2x=-cosx

 

There seems to be a mistake in this step. It should be 2+2tan2x-1 which equals 1+2tan2x.

Posted

Well, let's just rearange this line for now:

 

2(1+tan^2x)-1=-cosx

 

First thing is to distribute the 2:

 

(2+2tan2x)-1=-cosx

 

Then get rid of the parenthesis and subtract the 1 from the 2. That gives:

 

1+2tan2x=-cosx

 

Use the identity tan2x=sin2x/cos2x to get:

 

1+2sin2x/cos2x=-cosx

 

That's just a little different than your line:

 

2+2sin2x/cos2x=-cosx

Posted

Ok i understand now.

so if we were to work it through in the same manner:

1+2sin^2x/cos^2x=-cosx

 

2sin^2x+cos^2x=-cos^3x

2(-cos^2x+1)=+cos^2x=-cos^3x

 

2-2cos^2x=-cos^3x

2-cos^2x=-cos^3x

 

and where do i go from here?

Posted
2(-cos^2x+1)=+cos^2x=-cos^3x

2-2cos^2x=-cos^3x

I think there's another algebra mistake here.

Let's distribute the 2 again:

 

(2-2cos2x)+cos2x=cos3x

 

It looks like you forgot the lone cos2 on the left side (maybe because of the errant equals sign?)

 

Either way' date=' that boilds down to:

 

2-cos[sup']2[/sup]x=cos3x

 

2=cos3x+cos2x

Posted

Really, I wish I could be more help, but I don't this is the point where I origionaly had it and couldn't go much further for some reason. You seem to find some pretty clever ways to manipulate it though, so keep posting what you try.

Guest entropy
Posted
I find problems with solving a function that is not equal to 0

ie. secx(2secx^2-1)=-1

 

what do i do with this beauty to find its solutions? is it secx=-1 and secx=sqrt-2 ' date='which is impossible?[/quote']

 

We can treat this as a polynomial in secx, as I think you were hinting at above.

 

Letting u = secx, consider

f(u) = u(2u2 - 1) + 1

= 2u3 - u + 1

= (u + 1)(2u2 - 2u + 1)

 

f(u) = 0 => u + 1 = 0 or 2u2 - 2u + 1 = 0.

From the linear factor we have u = -1.

The quadratic factor has no real roots, as its discriminant is negative.

 

Hence the only solutions are where u = secx = -1.

That is, cosx = -1, so that x = (2n + 1)*pi, where n is an integer.

Posted

cheers! thanks a lot!

 

my problem was that i didn't know if the way i was trying to solve the function was the correct one.

 

thanks again

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