Notes for AKT-090924-2/0:39:41: Difference between revisions
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Hints: |
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Hints: i) Leibniz rule for derivative of products |
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ii)iterated Leibniz rule |
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1. Leibniz rule for derivative of products: |
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:<math>\partial_x(f.g)=(\partial_x f) g +f (\partial_x g)</math> |
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2. Iterated Leibniz rule (for expressions like <math>(\partial_x \partial_y \partial_z) (f.g)</math>) |
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3. Leibniz rule in a discrete (combinatorial) setting: |
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<math>(f.g)(\doublepoint)=f(\doublepoint)g(\overcrossing) + f(\undercrossing)g(\doublepoint)</math> |
Latest revision as of 15:45, 17 September 2011
Hints:
1. Leibniz rule for derivative of products:
2. Iterated Leibniz rule (for expressions like )
3. Leibniz rule in a discrete (combinatorial) setting:
Failed to parse (unknown function "\doublepoint"): {\displaystyle (f.g)(\doublepoint)=f(\doublepoint)g(\overcrossing) + f(\undercrossing)g(\doublepoint)}