Integral of (dx)^2: Answers Here

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In summary, the conversation discusses the integral of (dx)^2 and a differential equation d2y/(dx)^2+y=0, with one person asking for clarification and another trying to demonstrate a possible answer of KCos(x-x0). The conversation is ended with a moderator noting that the thread is a duplicate and will be locked.
  • #1
alpha25
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Hello, does anyone knows the Integral of (dx)^2

Excuse my english, I hope I had make myself clear, thanks
 
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  • #2
I'm thinking you need to be more specific. What is the context here?
 
  • #3
In fact i am trying to resolve a a diferencial equation d2y/(dx)^2+y=0
I don´t know how to demostrate that a possibly answer is KCos(x-x0)
 
  • #4
Differentiate that possible answer twice with respect to x. What to you get?
 
  • #5
I know that KCos(x-x0) is a solution of d2y/(dx)^2+y=0 but I don t know how to demostrate it!
 
  • #7
Thank You. Locked.
 

1. What is the purpose of finding the integral of (dx)^2?

The integral of (dx)^2 is used to find the area under a curve with a squared term. It is also used in physics and engineering to calculate the work done by a force with a constant magnitude but varying direction.

2. How do you solve the integral of (dx)^2?

The integral of (dx)^2 can be solved using the power rule of integration, which states that the integral of x^n is (x^(n+1))/(n+1), where n is any real number except for -1.

3. Can the integral of (dx)^2 have a negative value?

No, the integral of (dx)^2 always yields a positive value. This is because the squared term eliminates any negative values that may be present in the integral.

4. Is there a difference between the integral of (dx)^2 and (dx)^2?

Yes, there is a difference between the two. The integral of (dx)^2 is used to find the area under a curve, while (dx)^2 is used to represent a squared term in a function.

5. Are there any real-world applications of the integral of (dx)^2?

Yes, the integral of (dx)^2 has numerous real-world applications in fields such as physics, engineering, and economics. It is used to calculate work, find areas under curves, and determine the change in a quantity over time.

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