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Applications of Definite Intergral

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RAVI PRASAD K.J.
RAVI PRASAD K.J.

This document provides an introduction to using definite integrals to calculate volumes, lengths of curves, centers of mass, surface areas, work, and fluid forces. It discusses calculating volumes through slicing solids and rotating areas about an axis. Examples are provided for finding the volumes of pyramids, wedges, and solids of revolution. It also discusses using integrals to find curve lengths, circle circumferences, and moments and centers of mass for various objects. Surface areas of revolution and fluid pressures are also explained.

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APPLICATIONS OF DEFINITE INTEGRALS Chapter 6
INTRODUCTION • In this chapter, we extend the applications to finding  volumes, • lengths of plane curves, • centers of mass, • areas of surfaces of revolution, • work, and • fluid forces against planar walls. We define all these as limits of Riemann sums of continuous functions on closed intervals— that is, as definite integrals which can be evaluated using the Fundamental Theorem of Calculus.
VOLUMES BY SLICING AND ROTATION ABOUT AN AXIS • A cross-section of a solid S is the plane region formed by intersecting S with a plane. • We begin by extending the definition of a cylinder from classical geometry to cylindrical solids with arbitrary bases. • If the cylindrical solid has a known base area A and height h, then the volume of the cylindrical solid is A * h. • This equation forms the basis for defining the volumes of many solids that are not cylindrical by the method of slicing. • If the cross-section of the solid S at each point in the interval [a, b] is a region R(x) of area A(x), and A is a continuous function of x, we can define and calculate the volume of the solid S as a definite integral in the following way. Volume = area * height = A(x) * h.
VOLUMES BY SLICING AND ROTATION ABOUT AN AXIS
VOLUMES BY SLICING AND ROTATION ABOUT AN AXIS
EXAMPLE 1 VOLUME OF A PYRAMID • A pyramid 3 m high has a square base that is 3 m on a side. The cross-section of the pyramid perpendicular to the altitude x m down from the vertex is a square x m on a side. Find the volume of the pyramid.
EXAMPLE 2 CAVALIERI’S PRINCIPLE • Cavalieri’s principle says that solids with equal altitudes and identical cross-sectional areas at each height have the same volume. This follows immediately from the definition of volume, because the cross-sectional area function A(x) and the interval [a, b] are the same for both solids.
EXAMPLE 3 VOLUME OF A WEDGE • A curved wedge is cut from a cylinder of radius 3 by two planes. One plane is perpendicular to the axis of the cylinder. The second plane crosses the first plane at a 45° angle at the center of the cylinder. Find the volume of the wedge.
EXAMPLE 3 VOLUME OF A WEDGE
EXAMPLE 3 VOLUME OF A WEDGE
SOLIDS OF REVOLUTION: THE DISK METHOD • The solid generated by rotating a plane region about an axis in its plane is called a solid of revolution. • To find the volume of a solid like the one shown in Figure 6.8, we need only observe that the cross-sectional area A(x) is the area of a disk of radius R(x), the distance of the planar region’s boundary from the axis of revolution. The area is then • This method for calculating the volume of a solid of revolution is often called the disk method because a cross-section is a circular disk of radius R(x).
EXAMPLE 4 A SOLID OF REVOLUTION (ROTATION ABOUT THE X-AXIS)
EXAMPLE 4 A SOLID OF REVOLUTION (ROTATION ABOUT THE X-AXIS)
EXAMPLE 5 VOLUME OF A SPHERE
EXAMPLE 6 A SOLID OF REVOLUTION (ROTATION ABOUT THE LINE )
EXAMPLE 6 A SOLID OF REVOLUTION (ROTATION ABOUT THE LINE )
ROTATION ABOUT THE Y-AXIS
EXAMPLE 7 ROTATION ABOUT THE Y-AXIS
EXAMPLE 8 ROTATION ABOUT A VERTICAL AXIS
EXAMPLE 8 ROTATION ABOUT A VERTICAL AXIS
SOLIDS OF REVOLUTION: THE WASHER METHOD
SOLIDS OF REVOLUTION: THE WASHER METHOD
We know what is meant by the length of a straight line segment, but without calculus, we have no precise notion of the length of a general winding curve. The idea of approximating the length of a curve running from point A to point B by subdividing the curve into many pieces and joining successive points of division by straight line segments dates back to the ancient Greeks. Archimedes used this method to approximate the circumference of a circle by inscribing a polygon of n sides and then using geometry to compute its perimeter
LENGTH OF A PARAMETRICALLY DEFINED CURVE
LENGTH OF A PARAMETRICALLY DEFINED CURVE
LENGTH OF A PARAMETRICALLY DEFINED CURVE
THE CIRCUMFERENCE OF A CIRCLE
MOMENTS AND CENTERS OF MASS
MOMENTS AND CENTERS OF MASS • Many structures and mechanical systems behave as if their masses were concentrated at a single point, called the center of mass
MOMENTS AND CENTERS OF MASS
WIRES AND THIN RODS
MASSES DISTRIBUTED OVER A PLANE REGION
THIN, FLAT PLATES
AREAS OF SURFACES OF REVOLUTION AND THE THEOREMS OF PAPPUS
AREAS OF SURFACES OF REVOLUTION AND THE THEOREMS OF PAPPUS When you jump rope, the rope sweeps out a surface in the space around you called a surface of revolution. The “area” of this surface depends on the length of the rope and the distance of each of its segments from the axis of revolution. In this section we define areas of surfaces of revolution. Defining Surface Area If the jump rope discussed in the introduction takes the shape of a semicircle with radius a rotated about the x-axis (Figure 6.41), it generates a sphere with surface area.
REVOLUTION ABOUT THE Y-AXIS
WORK Work Done by a Variable Force Along a Line
FLUID PRESSURES AND FORCES
FLUID PRESSURES AND FORCES • We make dams thicker at the bottom than at the top (Figure 6.64) because the pressure against them increases with depth. The pressure at any point on a dam depends only on how far below the surface the point is and not on how much the surface of the dam happens to be tilted at that point. • The pressure, in pounds per square foot at a point h feet below the surface, is always 62.4h. The number 62.4 is the weight-density of water in pounds per cubic foot. • The pressure h feet below the surface of any fluid is the fluid’s weight-density times h.
THE VARIABLE-DEPTH FORMULA
FLUID FORCES AND CENTROID
THANK YOU…

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Applications of Definite Intergral

  • 2. INTRODUCTION • In this chapter, we extend the applications to finding  volumes, • lengths of plane curves, • centers of mass, • areas of surfaces of revolution, • work, and • fluid forces against planar walls. We define all these as limits of Riemann sums of continuous functions on closed intervals— that is, as definite integrals which can be evaluated using the Fundamental Theorem of Calculus.
  • 3. VOLUMES BY SLICING AND ROTATION ABOUT AN AXIS • A cross-section of a solid S is the plane region formed by intersecting S with a plane. • We begin by extending the definition of a cylinder from classical geometry to cylindrical solids with arbitrary bases. • If the cylindrical solid has a known base area A and height h, then the volume of the cylindrical solid is A * h. • This equation forms the basis for defining the volumes of many solids that are not cylindrical by the method of slicing. • If the cross-section of the solid S at each point in the interval [a, b] is a region R(x) of area A(x), and A is a continuous function of x, we can define and calculate the volume of the solid S as a definite integral in the following way. Volume = area * height = A(x) * h.
  • 4. VOLUMES BY SLICING AND ROTATION ABOUT AN AXIS
  • 5. VOLUMES BY SLICING AND ROTATION ABOUT AN AXIS
  • 6. EXAMPLE 1 VOLUME OF A PYRAMID • A pyramid 3 m high has a square base that is 3 m on a side. The cross-section of the pyramid perpendicular to the altitude x m down from the vertex is a square x m on a side. Find the volume of the pyramid.
  • 7. EXAMPLE 2 CAVALIERI’S PRINCIPLE • Cavalieri’s principle says that solids with equal altitudes and identical cross-sectional areas at each height have the same volume. This follows immediately from the definition of volume, because the cross-sectional area function A(x) and the interval [a, b] are the same for both solids.
  • 8. EXAMPLE 3 VOLUME OF A WEDGE • A curved wedge is cut from a cylinder of radius 3 by two planes. One plane is perpendicular to the axis of the cylinder. The second plane crosses the first plane at a 45° angle at the center of the cylinder. Find the volume of the wedge.
  • 11. SOLIDS OF REVOLUTION: THE DISK METHOD • The solid generated by rotating a plane region about an axis in its plane is called a solid of revolution. • To find the volume of a solid like the one shown in Figure 6.8, we need only observe that the cross-sectional area A(x) is the area of a disk of radius R(x), the distance of the planar region’s boundary from the axis of revolution. The area is then • This method for calculating the volume of a solid of revolution is often called the disk method because a cross-section is a circular disk of radius R(x).
  • 12. EXAMPLE 4 A SOLID OF REVOLUTION (ROTATION ABOUT THE X-AXIS)
  • 13. EXAMPLE 4 A SOLID OF REVOLUTION (ROTATION ABOUT THE X-AXIS)
  • 14. EXAMPLE 5 VOLUME OF A SPHERE
  • 15. EXAMPLE 6 A SOLID OF REVOLUTION (ROTATION ABOUT THE LINE )
  • 16. EXAMPLE 6 A SOLID OF REVOLUTION (ROTATION ABOUT THE LINE )
  • 19. EXAMPLE 8 ROTATION ABOUT A VERTICAL AXIS
  • 20. EXAMPLE 8 ROTATION ABOUT A VERTICAL AXIS
  • 21. SOLIDS OF REVOLUTION: THE WASHER METHOD
  • 22. SOLIDS OF REVOLUTION: THE WASHER METHOD
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  • 35. We know what is meant by the length of a straight line segment, but without calculus, we have no precise notion of the length of a general winding curve. The idea of approximating the length of a curve running from point A to point B by subdividing the curve into many pieces and joining successive points of division by straight line segments dates back to the ancient Greeks. Archimedes used this method to approximate the circumference of a circle by inscribing a polygon of n sides and then using geometry to compute its perimeter
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  • 37. LENGTH OF A PARAMETRICALLY DEFINED CURVE
  • 38. LENGTH OF A PARAMETRICALLY DEFINED CURVE
  • 39. LENGTH OF A PARAMETRICALLY DEFINED CURVE
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  • 48. MOMENTS AND CENTERS OF MASS • Many structures and mechanical systems behave as if their masses were concentrated at a single point, called the center of mass
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  • 60. AREAS OF SURFACES OF REVOLUTION AND THE THEOREMS OF PAPPUS
  • 61. AREAS OF SURFACES OF REVOLUTION AND THE THEOREMS OF PAPPUS When you jump rope, the rope sweeps out a surface in the space around you called a surface of revolution. The “area” of this surface depends on the length of the rope and the distance of each of its segments from the axis of revolution. In this section we define areas of surfaces of revolution. Defining Surface Area If the jump rope discussed in the introduction takes the shape of a semicircle with radius a rotated about the x-axis (Figure 6.41), it generates a sphere with surface area.
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  • 81. WORK Work Done by a Variable Force Along a Line
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  • 88. FLUID PRESSURES AND FORCES • We make dams thicker at the bottom than at the top (Figure 6.64) because the pressure against them increases with depth. The pressure at any point on a dam depends only on how far below the surface the point is and not on how much the surface of the dam happens to be tilted at that point. • The pressure, in pounds per square foot at a point h feet below the surface, is always 62.4h. The number 62.4 is the weight-density of water in pounds per cubic foot. • The pressure h feet below the surface of any fluid is the fluid’s weight-density times h.
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  • 91. FLUID FORCES AND CENTROID