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| | |<math>\frac{\partial z}{\partial x}=2xe^{x^2y}+x^2e^{x^2y}2xy</math> (product rule +chain rule) | | |<math>\frac{\partial z}{\partial x}=2xe^{x^2y}+x^2e^{x^2y}2xy</math> (product rule +chain rule) |
| | |- | | |- |
| − | |<math>\frac{\partial z}{\partial y}=x^2e^{x^2y}x^2</math> | + | |<math>\frac{\partial z}{\partial y}=x^2e^{x^2y}(x^2)=x^4e^{x^2y}</math> |
| | |} | | |} |
| | + | |
| | + | ==Higher-Order Partial Derivatives== |
| | + | 1. <math>\frac{\partial}{\partial x}(\frac{\partial f}{\partial x})=\frac{\partial^2 f}{\partial x^2}=f_{xx}</math> |
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| | + | 2. <math>\frac{\partial}{\partial y}(\frac{\partial f}{\partial y})=\frac{\partial^2 f}{\partial y^2}=f_{yy}</math> |
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| | + | 3. <math>\frac{\partial}{\partial y}(\frac{\partial f}{\partial x})=\frac{\partial^2 f}{\partial y\partial x}=f_{xy}</math> |
| | + | |
| | + | 4. <math>\frac{\partial}{\partial x}(\frac{\partial f}{\partial y})=\frac{\partial^2 f}{\partial x\partial y}=f_{yx}</math> |
| | + | |
| | + | '''1)''' Find <math>f_{xy}</math>, given that <math>f(x,y)=2x^2-4xy</math>, |
| | + | {| class = "mw-collapsible mw-collapsed" style = "text-align:left;" |
| | + | !Solution: |
| | + | |- |
| | + | |<math>f_x=4x-4y</math> |
| | + | |- |
| | + | |Then, <math>f_{xy}=-4</math> |
| | + | |} |
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| | + | '''2)''' Find <math>f_{yx}</math>, given that <math>z=f(x,y)=3xy^2-2y+5x^2y^2</math>, |
| | + | {| class = "mw-collapsible mw-collapsed" style = "text-align:left;" |
| | + | !Solution: |
| | + | |- |
| | + | |<math>f_y=6xy-2+10x^2y</math> |
| | + | |- |
| | + | |Then, <math>f_{yx}=6y+20xy</math> |
| | + | |} |
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Latest revision as of 16:21, 3 September 2020
Partial Derivatives of a Function of Two Variables
If 
, then the first partial derivatives of with respect to 
and 
are the functions 
and , defined as shown.
We can denote as 
and 
as 
Example: Find and of:
1) 
| Solution:
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2) 
| Solution:
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3) 
| Solution:
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 (product rule +chain rule)
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Higher-Order Partial Derivatives
1. 
2. 
3. 
4. 
1) Find 
, given that 
,
| Solution:
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Then, 
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2) Find 
, given that 
,
| Solution:
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Then, 
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