Stewart Calculus - Multivariable Functions

Stewart Calculus - Multivariable Functions

Jonathan Walters via YouTube Direct link

Find the Linear Approximation of f(x,y) = 1-xycos(pi y) at the Point (1,1)

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3 of 11

Find the Linear Approximation of f(x,y) = 1-xycos(pi y) at the Point (1,1)

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Stewart Calculus - Multivariable Functions

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  1. 1 What The Heck are Partial Derivatives?? With Visualization, Examples and Clairaut's Theorem!!
  2. 2 Partial Derivative Examples Advanced (Including Derivative of an Integral)
  3. 3 Find the Linear Approximation of f(x,y) = 1-xycos(pi y) at the Point (1,1)
  4. 4 Use Differentials to Estimate the Amount of Metal in a Cylindrical Can
  5. 5 Use the Chain Rule to find the Partial Derivatives
  6. 6 Use the Chain Rule to Find the Partial Derivatives of z = tan(u/v), u-2s+3t, v=3s-2t
  7. 7 Find all points at which the direction of fastest change of the function is i+j
  8. 8 Find the Directional Derivative of f(x,y,z) = xy+yz+xz at (1,-1,3) in the direction of (2,4,5)
  9. 9 Local Extrema and Saddle Points of a Multivariable Function. 2nd Derivative Test
  10. 10 Use Lagrange Multipliers to Find the Maximum and Minimum Values of f(x,y) = x^3y^5
  11. 11 Multivariable Limit Using the Definition

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