LCC 8.8.11 Infinite Intervals of Integration

In summary, LCC 8.8.11 refers to a section in the Library of Congress Classification system that deals with mathematics, specifically the concept of infinite intervals of integration. These intervals have no defined upper or lower limits and are important in mathematics for calculating areas and volumes of shapes that cannot be easily defined with traditional limits. To calculate these integrals, a technique called improper integration is used, which involves taking the limit as the upper and lower limits approach infinity. Real-world examples of infinite intervals of integration include calculating the volume of a cone or paraboloid, finding the center of mass of a curved shape, and determining the work done by a variable force in physics and engineering problems.
  • #1
karush
Gold Member
MHB
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$\tiny\text{LCC 206 8.8.11 Infinite Intervals of Integration}$
$$\displaystyle
I=\int_{1}^{\infty} {x}^{-2} \,dx = 1$$
$$I=\left[\frac{1}{x}\right]_1^\infty=\left| 0-1 \right|=1$$

$\text{the only way apparently to get 1 is to use absolute value ?}$

$\tiny\text{from Surf the Nations math study group}$
 
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  • #2
I would write:

\(\displaystyle I=\lim_{t\to\infty}\left(\int_1^t x^{-2}\,dx\right)=\lim_{t\to\infty}\left(\left[-\frac{1}{x}\right]_1^t\right)=\lim_{t\to\infty}\left(1-\frac{1}{t}\right)=1\)
 

Related to LCC 8.8.11 Infinite Intervals of Integration

1. What is LCC 8.8.11 Infinite Intervals of Integration?

LCC 8.8.11 refers to a section in the Library of Congress Classification system, which is used to organize books and materials in libraries. This specific section deals with mathematics, specifically the concept of infinite intervals of integration.

2. What are infinite intervals of integration?

In mathematics, an integral is a mathematical concept that represents the area under a curve. Infinite intervals of integration refer to integrals that have no defined upper or lower limits, meaning the curve continues infinitely in both directions.

3. Why are infinite intervals of integration important?

Infinite intervals of integration are important in mathematics because they allow for the calculation of areas and volumes of shapes that cannot be easily defined with traditional limits. They also have applications in physics and engineering.

4. How are infinite intervals of integration calculated?

To calculate an integral with infinite intervals of integration, a technique called improper integration is used. This involves taking the limit of the integral as the upper and lower limits approach infinity. The resulting answer is then evaluated.

5. What are some real-world examples of infinite intervals of integration?

Some real-world examples of infinite intervals of integration include calculating the volume of a cone or a paraboloid, finding the center of mass of a curved shape, and determining the work done by a variable force. These applications are often seen in physics and engineering problems.

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