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Figure 4.1.4 (p. 238)

Figure 4.1.4 (p. 238). Equation (2) (p. 244). Equation (3) (p. 244). Theorem 4.3.1 (p. 249) Differentiability of Inverse Functions. Equation (5) (p. 251). Equation (6) (p. 251). Equation (7) (p. 251). Equation (8) (p. 251). Equation 9 (p. 253). Equation 10 (p. 253).

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Figure 4.1.4 (p. 238)

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  1. Figure 4.1.4 (p. 238)

  2. Equation (2) (p. 244) Equation (3) (p. 244)

  3. Theorem 4.3.1 (p. 249)Differentiability of Inverse Functions

  4. Equation (5) (p. 251) Equation (6) (p. 251) Equation (7) (p. 251) Equation (8) (p. 251)

  5. Equation 9 (p. 253) Equation 10 (p. 253) Equation 11 (p. 253)

  6. Equation 12 (p. 253) Equation 13 (p. 253) Equation 14 (p. 253)

  7. Theorem 4.4.1 (p. 257)L'Hopital's Rule for Form 0/0.

  8. Applying L'Hopital's Rule (p. 257)

  9. Figure 4.4.1 (p. 260)

  10. Theorem 4.4.2 (p. 259)L'Hopital's Rule for Form /.

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