What is the integral of root(1-cosx)?

  • Thread starter Thread starter luznyr
  • Start date Start date
  • Tags Tags
    Integral
Click For Summary
SUMMARY

The integral of the function √(1 - cos(x)) can be evaluated using various methods, including algebraic manipulation and computational tools like Mathematica 5.2. The forum discussion highlights that the integral can yield multiple equivalent expressions, such as (1/2 - cos(x)/2)x and -2√(1 - cos(x))cot(x/2). Participants emphasize the importance of verifying results by differentiating the final expressions to ensure they match the original integrand. The conversation also notes that different computational tools may present answers in varying forms, but they can be equivalent when constants are considered.

PREREQUISITES
  • Understanding of integral calculus, specifically techniques for integrating trigonometric functions.
  • Familiarity with Mathematica 5.2 for computational integration.
  • Knowledge of trigonometric identities, particularly cos(2x) and its relation to sin²(x).
  • Ability to differentiate functions to verify integration results.
NEXT STEPS
  • Learn advanced integration techniques for trigonometric functions.
  • Explore the use of Mathematica for symbolic computation and integration.
  • Study the relationship between different forms of integrals and their equivalence.
  • Investigate the properties of trigonometric identities and their applications in calculus.
USEFUL FOR

Students and educators in calculus, mathematicians interested in integral evaluation, and anyone utilizing computational tools for solving mathematical problems.

luznyr
Messages
28
Reaction score
0

Attachments

  • eqn.gif
    eqn.gif
    263 bytes · Views: 2,747
  • working.gif
    working.gif
    473 bytes · Views: 3,076
Last edited:
Physics news on Phys.org
thanks for the link, when i used mathematica 5.2 i got (1/2 - cosx/2)x. is that the same as -2sqrt(1-cosx).cot(x/2) (the answer from the integrator) ?

What i was really after was how you would integrate the original function algebraically.

Edit:

Sorry i put the eqn in mathematica wrong, it does give the same ans as the integrator as expected. my end result was -2sqrt(2).cos(x/2) = -2sqrt(1-cosx).cot(x/2)). thanks for all your help
 
Last edited:
luznyr said:
thanks for the link, when i used mathematica 5.2 i got (1/2 - cosx/2)x. is that the same as -2sqrt(1-cosx).cot(x/2) (the answer from the integrator) ?

What i was really after was how you would integrate the original function algebraically.

I would do it using Mathematica. Failing that, I would recognize that cos(2x)=1-2sin^2(x)

-> cos(x)=1-2sin^2(x/2)

-> 1-cos(x)=2sin^2(x/2)

-> sqrt(1-cos(x))=sqrt(2) sin(x/2)

etc. etc.
 
thanks that should help heaps
 
There are probably about 236 ways of expressing the final answer, so don't be discouraged if it doesn't look like any of the above.

You should try to see if they agree though for random values of x.
 
thanks that should help heaps
 
Even if it doesn't looking anything similar, find the derivative and if its the original integrand, you are done :) christianjb's way is also good, but the 2 expressions may differ by a constant so watch out for that.
 
Gib Z said:
Even if it doesn't looking anything similar, find the derivative and if its the original integrand, you are done :) christianjb's way is also good, but the 2 expressions may differ by a constant so watch out for that.

But my way is

1) Use Mathematica,
2) if that doesn't work- wait for Gib Z to solve it.
 
  • #10
hahahahahaha
 
  • #11
My answers don't often look like the result, but just to show how fluid an anwer can be here's

Mathcad.

(2-2cos(x))^\frac{1}{2}.sin(x)\frac{2^\frac{1}{2}}{-1+cos(x)}+C

and

http://www.calc101.com/webMathematica/integrals.jsp#topdoit

-2\sqrt{cos(x)+1}+C

and Wolfram which agrees with this.

Both answers return -2.482 with x=1.

hehe.
 
Last edited:
  • #12
I don't know why Mathcad does not simplify it's answers like calc101 does. Even without any trigonometric manipulations, Mathcad's answer can be simplified to \frac{ -2\sin x}{\sqrt{1-\cos x}}, and yes in this case both anti derivatives are identical in the sense that when equated, the Constants are equal to 0.

EDIT: Some members of the forum wish to revive one of my old threads, and I'm not complaining, so here it is in case your interested :) https://www.physicsforums.com/showthread.php?t=149706&page=14

The original purpose was for people to post up integrals (usually indefinite) for me to solve. However the renewed purpose is for anyone to post up a particularly difficult problem for anyone to solve. The problems should be able to be worked out with no more than CalcII knowledge please. It would be wondering you you all would participate :)
 
Last edited:

Similar threads

How to show this equivalence in first order language ?
  • · Replies 1 ·
Replies
1
Views
1K
How can I verify my logarithmic differentiation for this function?
  • · Replies 5 ·
Replies
5
Views
2K
Need help solving an quartic equation.
  • · Replies 11 ·
Replies
11
Views
2K
Is x(t) equal to the shifted step function u(t+2)-u(t)?
  • · Replies 1 ·
Replies
1
Views
1K
What Are Maxima, Minima, and Related Rates in Calculus?
  • · Replies 2 ·
Replies
2
Views
2K
Find the Force and centre of pressure using double integrals
  • · Replies 1 ·
Replies
1
Views
3K
Is it possible to have a plus/minus function that has range of roots?
  • · Replies 4 ·
Replies
4
Views
2K
Analysis: Thm 1.21 and Question from Walter Rudin
  • · Replies 2 ·
Replies
2
Views
2K
Rodent Population as a differential equation.
  • · Replies 5 ·
Replies
5
Views
4K
D'alembert's solution to the wave equation, on Chain Rule
  • · Replies 1 ·
Replies
1
Views
3K