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Sec 4.2: The Mean Value Theorem

Sec 4.2: The Mean Value Theorem. Beijing celebrates the wonder of the amazing Mean Value Theorem. the mean value theorem of calculus decorate a pedestrian bridge across Zhushikou Dong Dajie in Beijing.

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Sec 4.2: The Mean Value Theorem

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  1. Sec 4.2: The Mean Value Theorem Beijing celebrates the wonder of the amazing Mean Value Theorem the mean value theorem of calculus decorate a pedestrian bridge across Zhushikou Dong Dajie in Beijing  The picture is taken a few blocks south of Tiananmen Square (between Qianmen and the Temple of the Heaven, in Chongwen District of the city

  2. Sec 4.2: The Mean Value Theorem Beijing celebrates the wonder of the amazing Mean Value Theorem

  3. Sec 4.2: The Mean Value Theorem ROLLE’S THEOREM 1 there is at least one number c in (a, b) f(x) is continuous on [a, b] 2 f(x) is differentiable on (a, b) 3

  4. Sec 4.2: The Mean Value Theorem F092

  5. Sec 4.2: The Mean Value Theorem Example for 3 ROLLE’S THEOREM 1 there is at least one number c in (a, b) f(x) is continuous on [a, b] 2 f(x) is differentiable on (a, b) 3

  6. Sec 4.2: The Mean Value Theorem MEAN VALUE THEOREM there is at least one number c in (a, b) 1 f(x) is continuous on [a, b] 2 f(x) is differentiable on (a, b)

  7. Sec 4.2: The Mean Value Theorem F141

  8. Sec 4.2: The Mean Value Theorem MEAN VALUE THEOREM there is at least one number c in (a, b) 1 f(x) is continuous on [a, b] 2 f(x) is differentiable on (a, b)

  9. Sec 4.2: The Mean Value Theorem F122

  10. Sec 4.2: The Mean Value Theorem F132

  11. Sec 4.2: The Mean Value Theorem F121

  12. Sec 4.2: The Mean Value Theorem Example from inverse trig MEAN VALUE THEOREM there is at least one number c in (a, b) 1 f(x) is continuous on [a, b] 2 f(x) is differentiable on (a, b) Mathematical Consequences COROLLARY 1 COROLLARY 2

  13. Sec 4.2: The Mean Value Theorem F093

  14. Sec 4.2: The Mean Value Theorem F092

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