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X2 t05 02 cylindrical shells (2012)

N
Nigel Simmons
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Volumes By Cylindrical Shells slice || rotation 
Volumes By Cylindrical Shells slice || rotation  y  f x y x
Volumes By Cylindrical Shells slice || rotation  y  f x y a b x
Volumes By Cylindrical Shells slice || rotation  y  f x y a x b x
Volumes By Cylindrical Shells slice || rotation  y  f x y a x b x
Volumes By Cylindrical Shells slice || rotation  y  f x y a x b x
Volumes By Cylindrical Shells slice || rotation  y  f x y a x b x x
Volumes By Cylindrical Shells slice || rotation  y  f x y y a x b x x
Volumes By Cylindrical Shells slice || rotation  y  f x y y  f x a x b x x
Volumes By Cylindrical Shells slice || rotation  y  f x y y  f x a x b x 2x x
Volumes By Cylindrical Shells slice || rotation  y  f x y y  f x a x b x 2x x A x   2x  f  x 
Volumes By Cylindrical Shells slice || rotation  y  f x y y  f x a x b x 2x x A x   2x  f  x  V  2x  f  x   x
Volumes By Cylindrical Shells slice || rotation  y  f x y y  f x a x b x 2x x A x   2x  f  x  V  2x  f  x   x b V  lim  2x  f  x   x x 0 xa
Volumes By Cylindrical Shells slice || rotation  y  f x y y  f x a x b x 2x x A x   2x  f  x  V  2x  f  x   x b V  lim  2x  f  x   x x 0 xa b  2  xf  x dx a
e.g. i  Find the volume generated when the area between y  4  x 2 and the x axis is rotated about the x axis
e.g. i  Find the volume generated when the area between y  4  x 2 and the x axis is rotated about the x axis y 4 y  4  x2 -2 2 x
e.g. i  Find the volume generated when the area between y  4  x 2 and the x axis is rotated about the x axis y 4 y  4  x2 y -2 2 x
e.g. i  Find the volume generated when the area between y  4  x 2 and the x axis is rotated about the x axis y 4 y  4  x2 y -2 2 x
e.g. i  Find the volume generated when the area between y  4  x 2 and the x axis is rotated about the x axis y 4 y  4  x2 y -2 2 x y
e.g. i  Find the volume generated when the area between y  4  x 2 and the x axis is rotated about the x axis y 4 y  4  x2 1 y  x  4  y  2 -2 2 x y 2x
e.g. i  Find the volume generated when the area between y  4  x 2 and the x axis is rotated about the x axis y 4 y  4  x2 1 y  x  4  y  2 -2 2 x y 2x
e.g. i  Find the volume generated when the area between y  4  x 2 and the x axis is rotated about the x axis y 4 y  4  x2 1 y  x  4  y  2 -2 2 x y 1 2 x  24  y  2
e.g. i  Find the volume generated when the area between y  4  x 2 and the x axis is rotated about the x axis y 4 y  4  x2 1 y  x  4  y  2 -2 2 x y 2y 1 2 x  24  y  2
e.g. i  Find the volume generated when the area between y  4  x 2 and the x axis is rotated about the x axis y 4 y  4  x2 1 y  x  4  y  2 -2 2 x y A y   2y 24  y 1    2   2y 1 2 x  24  y  2
e.g. i  Find the volume generated when the area between y  4  x 2 and the x axis is rotated about the x axis y 4 y  4  x2 1 y  x  4  y  2 -2 2 x y A y   2y 24  y 1    2   1 2y V  4y 4  y 2  y 1 2 x  24  y  2
e.g. i  Find the volume generated when the area between y  4  x 2 and the x axis is rotated about the x axis 4 1 V  lim  4y 4  y 2  y y y 0 x 0 4 y  4  x2 1 y  x  4  y  2 -2 2 x y A y   2y 24  y 1    2   1 2y V  4y 4  y 2  y 1 2 x  24  y  2
e.g. i  Find the volume generated when the area between y  4  x 2 and the x axis is rotated about the x axis 4 1 V  lim  4y 4  y 2  y y y 0 x 0 4 y  4 x 2 4 1 y 1  x  4  y  2  4  y 4  y 2 dy 0 -2 2 x y A y   2y 24  y 1    2   1 2y V  4y 4  y 2  y 1 2 x  24  y  2
e.g. i  Find the volume generated when the area between y  4  x 2 and the x axis is rotated about the x axis 4 1 V  lim  4y 4  y 2  y y y 0 x 0 4 y  4 x 2 4 1 y 1  x  4  y  2  4  y 4  y 2 dy 0 4 1 -2 2 x  4  4  y  y dy 2 0 y A y   2y 24  y 1    2   1 2y V  4y 4  y 2  y 1 2 x  24  y  2
e.g. i  Find the volume generated when the area between y  4  x 2 and the x axis is rotated about the x axis 4 1 V  lim  4y 4  y 2  y y y 0 x 0 4 y  4 x 2 4 1 y 1  x  4  y  2  4  y 4  y 2 dy 0 4 1 -2 2 x  4  4  y  y dy 2 0 y 4  1 3   4   4 y  y dy  2 2 24  y 1  0  A y   2y   2   1 2y V  4y 4  y 2  y 1 2 x  24  y  2
e.g. i  Find the volume generated when the area between y  4  x 2 and the x axis is rotated about the x axis 4 1 V  lim  4y 4  y 2  y y y 0 x 0 4 y  4 x 2 4 1 y 1  x  4  y  2  4  y 4  y 2 dy 0 4 1 -2 2 x  4  4  y  y dy 2 0 y 4  1 3   4   4 y  y dy  2 2 24  y 1  0  A y   2y 5 4   2   8 2 2 2  3 1  4  y  y  2y V  4y 4  y 2  y 3 5 0 1 2 x  24  y  2
e.g. i  Find the volume generated when the area between y  4  x 2 and the x axis is rotated about the x axis 4 1 V  lim  4y 4  y 2  y y y 0 x 0 4 y  4 x 2 4 1 y 1  x  4  y  2  4  y 4  y 2 dy 0 4 1 -2 2 x  4  4  y  y dy 2 0 y 4  1 3   4   4 y  y dy  2 2 24  y 1  0  A y   2y 5 4   2   8 2 2 2  3 1  4  y  y  2y V  4y 4  y 2  y 3 5 0 8    2 32   0  4  8   3 5  512  1 2 x  24  y  2 15 units 3
ii  Find the volume generated when x 2  y 2  4 is rotated about the line x  4
ii  Find the volume generated when x 2  y 2  4 is rotated about the line x  4 y 2 x2  y2  4 -2 2 x -2
ii  Find the volume generated when x 2  y 2  4 is rotated about the line x  4 y 2 x2  y2  4 -2 2 4 x -2
ii  Find the volume generated when x 2  y 2  4 is rotated about the line x  4 y 2 x2  y2  4 -2 2 4 x -2 x
ii  Find the volume generated when x 2  y 2  4 is rotated about the line x  4 y 2 x2  y2  4 -2 2 4 x -2 x
ii  Find the volume generated when x 2  y 2  4 is rotated about the line x  4 y 2 x2  y2  4 -2 2 4 x -2 x
ii  Find the volume generated when x 2  y 2  4 is rotated about the line x  4 y torus 2 x2  y2  4 -2 2 4 x -2 x
ii  Find the volume generated when x 2  y 2  4 is rotated about the line x  4 y torus 2 x2  y2  4 -2 2 4 x -2 x
ii  Find the volume generated when x 2  y 2  4 is rotated about the line x  4 y torus 2 x2  y2  4 -2 2 4 x -2 x x
ii  Find the volume generated when x 2  y 2  4 is rotated about the line x  4 y torus 2 x2  y2  4 -2 2 4 x -2 x 2y x
ii  Find the volume generated when x 2  y 2  4 is rotated about the line x  4 y torus 2 x2  y2  4 -2 2 4 x -2 x 2y  2 4  x2 x
ii  Find the volume generated when x 2  y 2  4 is rotated about the line x  4 y torus 2 x2  y2  4 -2 2 4 x -2 x 2y  2 4  x2 2 4  x  x
ii  Find the volume generated when x 2  y 2  4 is rotated about the line x  4 y torus 2 x2  y2  4 -2 2 4 x -2 x A x   2 4  x 2  2 4  x  2y  2 4  x2 2 4  x  x
ii  Find the volume generated when x 2  y 2  4 is rotated about the line x  4 y torus 2 x2  y2  4 -2 2 4 x -2 x A x   2 4  x 2  2 4  x  2y  4 4  x  4  x 2  2 4  x2 2 4  x  x
ii  Find the volume generated when x 2  y 2  4 is rotated about the line x  4 y torus 2 x2  y2  4 -2 2 4 x -2 x A x   2 4  x 2  2 4  x  2y  4 4  x  4  x 2  2 4  x2 V  4 4  x  4  x 2  x 2 4  x  x
2 V  lim x  0  4 4  x  4  x 2  x x  2
2 V  lim x  0  4 4  x  4  x 2  x x  2 2  4  4  x  4  x 2 dx 2
2 V  lim x  0  4 4  x  4  x 2  x x  2 2  4  4  x  4  x 2 dx 2 2 2  4  4 4  x 2 dx  4  x 4  x 2 dx 2 2
2 V  lim x  0  4 4  x  4  x 2  x x  2 2  4  4  x  4  x 2 dx 2 2 2  4  4 4  x 2 dx  4  x 4  x 2 dx 2 2 2 2  16  4  x 2 dx  4  x 4  x 2 dx 2 2
2 V  lim x  0  4 4  x  4  x 2  x x  2 2  4  4  x  4  x 2 dx 2 2 2  4  4 4  x 2 dx  4  x 4  x 2 dx 2 2 2 2  16  4  x 2 dx  4  x 4  x 2 dx 2 2 semi-circle
2 V  lim x  0  4 4  x  4  x 2  x x  2 2  4  4  x  4  x 2 dx 2 2 2  4  4 4  x 2 dx  4  x 4  x 2 dx 2 2 2 2  16  4  x 2 dx  4  x 4  x 2 dx 2 2 semi-circle  1  2 2   16  2  
2 V  lim x  0  4 4  x  4  x 2  x x  2 2  4  4  x  4  x 2 dx 2 2 2  4  4 4  x 2 dx  4  x 4  x 2 dx 2 2 2 2  16  4  x 2 dx  4  x 4  x 2 dx 2 2 semi-circle odd  even  odd function  1  2 2   16  2  
2 V  lim x  0  4 4  x  4  x 2  x x  2 2  4  4  x  4  x 2 dx 2 2 2  4  4 4  x 2 dx  4  x 4  x 2 dx 2 2 2 2  16  4  x 2 dx  4  x 4  x 2 dx 2 2 semi-circle odd  even  odd function  1  2 2   16  2  0 
2 V  lim x  0  4 4  x  4  x 2  x x  2 2  4  4  x  4  x 2 dx 2 2 2  4  4 4  x 2 dx  4  x 4  x 2 dx 2 2 2 2  16  4  x 2 dx  4  x 4  x 2 dx 2 2 semi-circle odd  even  odd function  1  2 2   16  2  0   32 2 units 3
2 V  lim x  0  4 4  x  4  x 2  x x  2 2  4  4  x  4  x 2 dx Exercise 3B; 2 3, 4, 6, 8 2 2  4  4 4  x 2 dx  4  x 4  x 2 dx Exercise 3C; 2 2 2 2 1, 3, 9, 12, 20  16  4  x 2 dx  4  x 4  x 2 dx 2 2 semi-circle odd  even  odd function  1  2 2   16  2  0   32 2 units 3

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X2 t05 02 cylindrical shells (2012)

  • 1. Volumes By Cylindrical Shells slice || rotation 
  • 2. Volumes By Cylindrical Shells slice || rotation  y  f x y x
  • 3. Volumes By Cylindrical Shells slice || rotation  y  f x y a b x
  • 4. Volumes By Cylindrical Shells slice || rotation  y  f x y a x b x
  • 5. Volumes By Cylindrical Shells slice || rotation  y  f x y a x b x
  • 6. Volumes By Cylindrical Shells slice || rotation  y  f x y a x b x
  • 7. Volumes By Cylindrical Shells slice || rotation  y  f x y a x b x x
  • 8. Volumes By Cylindrical Shells slice || rotation  y  f x y y a x b x x
  • 9. Volumes By Cylindrical Shells slice || rotation  y  f x y y  f x a x b x x
  • 10. Volumes By Cylindrical Shells slice || rotation  y  f x y y  f x a x b x 2x x
  • 11. Volumes By Cylindrical Shells slice || rotation  y  f x y y  f x a x b x 2x x A x   2x  f  x 
  • 12. Volumes By Cylindrical Shells slice || rotation  y  f x y y  f x a x b x 2x x A x   2x  f  x  V  2x  f  x   x
  • 13. Volumes By Cylindrical Shells slice || rotation  y  f x y y  f x a x b x 2x x A x   2x  f  x  V  2x  f  x   x b V  lim  2x  f  x   x x 0 xa
  • 14. Volumes By Cylindrical Shells slice || rotation  y  f x y y  f x a x b x 2x x A x   2x  f  x  V  2x  f  x   x b V  lim  2x  f  x   x x 0 xa b  2  xf  x dx a
  • 15. e.g. i  Find the volume generated when the area between y  4  x 2 and the x axis is rotated about the x axis
  • 16. e.g. i  Find the volume generated when the area between y  4  x 2 and the x axis is rotated about the x axis y 4 y  4  x2 -2 2 x
  • 17. e.g. i  Find the volume generated when the area between y  4  x 2 and the x axis is rotated about the x axis y 4 y  4  x2 y -2 2 x
  • 18. e.g. i  Find the volume generated when the area between y  4  x 2 and the x axis is rotated about the x axis y 4 y  4  x2 y -2 2 x
  • 19. e.g. i  Find the volume generated when the area between y  4  x 2 and the x axis is rotated about the x axis y 4 y  4  x2 y -2 2 x y
  • 20. e.g. i  Find the volume generated when the area between y  4  x 2 and the x axis is rotated about the x axis y 4 y  4  x2 1 y  x  4  y  2 -2 2 x y 2x
  • 21. e.g. i  Find the volume generated when the area between y  4  x 2 and the x axis is rotated about the x axis y 4 y  4  x2 1 y  x  4  y  2 -2 2 x y 2x
  • 22. e.g. i  Find the volume generated when the area between y  4  x 2 and the x axis is rotated about the x axis y 4 y  4  x2 1 y  x  4  y  2 -2 2 x y 1 2 x  24  y  2
  • 23. e.g. i  Find the volume generated when the area between y  4  x 2 and the x axis is rotated about the x axis y 4 y  4  x2 1 y  x  4  y  2 -2 2 x y 2y 1 2 x  24  y  2
  • 24. e.g. i  Find the volume generated when the area between y  4  x 2 and the x axis is rotated about the x axis y 4 y  4  x2 1 y  x  4  y  2 -2 2 x y A y   2y 24  y 1    2   2y 1 2 x  24  y  2
  • 25. e.g. i  Find the volume generated when the area between y  4  x 2 and the x axis is rotated about the x axis y 4 y  4  x2 1 y  x  4  y  2 -2 2 x y A y   2y 24  y 1    2   1 2y V  4y 4  y 2  y 1 2 x  24  y  2
  • 26. e.g. i  Find the volume generated when the area between y  4  x 2 and the x axis is rotated about the x axis 4 1 V  lim  4y 4  y 2  y y y 0 x 0 4 y  4  x2 1 y  x  4  y  2 -2 2 x y A y   2y 24  y 1    2   1 2y V  4y 4  y 2  y 1 2 x  24  y  2
  • 27. e.g. i  Find the volume generated when the area between y  4  x 2 and the x axis is rotated about the x axis 4 1 V  lim  4y 4  y 2  y y y 0 x 0 4 y  4 x 2 4 1 y 1  x  4  y  2  4  y 4  y 2 dy 0 -2 2 x y A y   2y 24  y 1    2   1 2y V  4y 4  y 2  y 1 2 x  24  y  2
  • 28. e.g. i  Find the volume generated when the area between y  4  x 2 and the x axis is rotated about the x axis 4 1 V  lim  4y 4  y 2  y y y 0 x 0 4 y  4 x 2 4 1 y 1  x  4  y  2  4  y 4  y 2 dy 0 4 1 -2 2 x  4  4  y  y dy 2 0 y A y   2y 24  y 1    2   1 2y V  4y 4  y 2  y 1 2 x  24  y  2
  • 29. e.g. i  Find the volume generated when the area between y  4  x 2 and the x axis is rotated about the x axis 4 1 V  lim  4y 4  y 2  y y y 0 x 0 4 y  4 x 2 4 1 y 1  x  4  y  2  4  y 4  y 2 dy 0 4 1 -2 2 x  4  4  y  y dy 2 0 y 4  1 3   4   4 y  y dy  2 2 24  y 1  0  A y   2y   2   1 2y V  4y 4  y 2  y 1 2 x  24  y  2
  • 30. e.g. i  Find the volume generated when the area between y  4  x 2 and the x axis is rotated about the x axis 4 1 V  lim  4y 4  y 2  y y y 0 x 0 4 y  4 x 2 4 1 y 1  x  4  y  2  4  y 4  y 2 dy 0 4 1 -2 2 x  4  4  y  y dy 2 0 y 4  1 3   4   4 y  y dy  2 2 24  y 1  0  A y   2y 5 4   2   8 2 2 2  3 1  4  y  y  2y V  4y 4  y 2  y 3 5 0 1 2 x  24  y  2
  • 31. e.g. i  Find the volume generated when the area between y  4  x 2 and the x axis is rotated about the x axis 4 1 V  lim  4y 4  y 2  y y y 0 x 0 4 y  4 x 2 4 1 y 1  x  4  y  2  4  y 4  y 2 dy 0 4 1 -2 2 x  4  4  y  y dy 2 0 y 4  1 3   4   4 y  y dy  2 2 24  y 1  0  A y   2y 5 4   2   8 2 2 2  3 1  4  y  y  2y V  4y 4  y 2  y 3 5 0 8    2 32   0  4  8   3 5  512  1 2 x  24  y  2 15 units 3
  • 32. ii  Find the volume generated when x 2  y 2  4 is rotated about the line x  4
  • 33. ii  Find the volume generated when x 2  y 2  4 is rotated about the line x  4 y 2 x2  y2  4 -2 2 x -2
  • 34. ii  Find the volume generated when x 2  y 2  4 is rotated about the line x  4 y 2 x2  y2  4 -2 2 4 x -2
  • 35. ii  Find the volume generated when x 2  y 2  4 is rotated about the line x  4 y 2 x2  y2  4 -2 2 4 x -2 x
  • 36. ii  Find the volume generated when x 2  y 2  4 is rotated about the line x  4 y 2 x2  y2  4 -2 2 4 x -2 x
  • 37. ii  Find the volume generated when x 2  y 2  4 is rotated about the line x  4 y 2 x2  y2  4 -2 2 4 x -2 x
  • 38. ii  Find the volume generated when x 2  y 2  4 is rotated about the line x  4 y torus 2 x2  y2  4 -2 2 4 x -2 x
  • 39. ii  Find the volume generated when x 2  y 2  4 is rotated about the line x  4 y torus 2 x2  y2  4 -2 2 4 x -2 x
  • 40. ii  Find the volume generated when x 2  y 2  4 is rotated about the line x  4 y torus 2 x2  y2  4 -2 2 4 x -2 x x
  • 41. ii  Find the volume generated when x 2  y 2  4 is rotated about the line x  4 y torus 2 x2  y2  4 -2 2 4 x -2 x 2y x
  • 42. ii  Find the volume generated when x 2  y 2  4 is rotated about the line x  4 y torus 2 x2  y2  4 -2 2 4 x -2 x 2y  2 4  x2 x
  • 43. ii  Find the volume generated when x 2  y 2  4 is rotated about the line x  4 y torus 2 x2  y2  4 -2 2 4 x -2 x 2y  2 4  x2 2 4  x  x
  • 44. ii  Find the volume generated when x 2  y 2  4 is rotated about the line x  4 y torus 2 x2  y2  4 -2 2 4 x -2 x A x   2 4  x 2  2 4  x  2y  2 4  x2 2 4  x  x
  • 45. ii  Find the volume generated when x 2  y 2  4 is rotated about the line x  4 y torus 2 x2  y2  4 -2 2 4 x -2 x A x   2 4  x 2  2 4  x  2y  4 4  x  4  x 2  2 4  x2 2 4  x  x
  • 46. ii  Find the volume generated when x 2  y 2  4 is rotated about the line x  4 y torus 2 x2  y2  4 -2 2 4 x -2 x A x   2 4  x 2  2 4  x  2y  4 4  x  4  x 2  2 4  x2 V  4 4  x  4  x 2  x 2 4  x  x
  • 47. 2 V  lim x  0  4 4  x  4  x 2  x x  2
  • 48. 2 V  lim x  0  4 4  x  4  x 2  x x  2 2  4  4  x  4  x 2 dx 2
  • 49. 2 V  lim x  0  4 4  x  4  x 2  x x  2 2  4  4  x  4  x 2 dx 2 2 2  4  4 4  x 2 dx  4  x 4  x 2 dx 2 2
  • 50. 2 V  lim x  0  4 4  x  4  x 2  x x  2 2  4  4  x  4  x 2 dx 2 2 2  4  4 4  x 2 dx  4  x 4  x 2 dx 2 2 2 2  16  4  x 2 dx  4  x 4  x 2 dx 2 2
  • 51. 2 V  lim x  0  4 4  x  4  x 2  x x  2 2  4  4  x  4  x 2 dx 2 2 2  4  4 4  x 2 dx  4  x 4  x 2 dx 2 2 2 2  16  4  x 2 dx  4  x 4  x 2 dx 2 2 semi-circle
  • 52. 2 V  lim x  0  4 4  x  4  x 2  x x  2 2  4  4  x  4  x 2 dx 2 2 2  4  4 4  x 2 dx  4  x 4  x 2 dx 2 2 2 2  16  4  x 2 dx  4  x 4  x 2 dx 2 2 semi-circle  1  2 2   16  2  
  • 53. 2 V  lim x  0  4 4  x  4  x 2  x x  2 2  4  4  x  4  x 2 dx 2 2 2  4  4 4  x 2 dx  4  x 4  x 2 dx 2 2 2 2  16  4  x 2 dx  4  x 4  x 2 dx 2 2 semi-circle odd  even  odd function  1  2 2   16  2  
  • 54. 2 V  lim x  0  4 4  x  4  x 2  x x  2 2  4  4  x  4  x 2 dx 2 2 2  4  4 4  x 2 dx  4  x 4  x 2 dx 2 2 2 2  16  4  x 2 dx  4  x 4  x 2 dx 2 2 semi-circle odd  even  odd function  1  2 2   16  2  0 
  • 55. 2 V  lim x  0  4 4  x  4  x 2  x x  2 2  4  4  x  4  x 2 dx 2 2 2  4  4 4  x 2 dx  4  x 4  x 2 dx 2 2 2 2  16  4  x 2 dx  4  x 4  x 2 dx 2 2 semi-circle odd  even  odd function  1  2 2   16  2  0   32 2 units 3
  • 56. 2 V  lim x  0  4 4  x  4  x 2  x x  2 2  4  4  x  4  x 2 dx Exercise 3B; 2 3, 4, 6, 8 2 2  4  4 4  x 2 dx  4  x 4  x 2 dx Exercise 3C; 2 2 2 2 1, 3, 9, 12, 20  16  4  x 2 dx  4  x 4  x 2 dx 2 2 semi-circle odd  even  odd function  1  2 2   16  2  0   32 2 units 3