Difference between revisions of "Differentiation Rules"
Akshjuneja (talk | contribs) (→Derivatives of Trig Functions) |
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'''Derivative of Tangent''' | '''Derivative of Tangent''' | ||
If <math>y(x) = \tan x</math>, then <math>\frac{dy}{dx} = \sec^2 x</math>. Note that this follows from the Quotient Rule. | If <math>y(x) = \tan x</math>, then <math>\frac{dy}{dx} = \sec^2 x</math>. Note that this follows from the Quotient Rule. | ||
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'''Derivative of Cosec''' | '''Derivative of Cosec''' | ||
− | If <math>y(x) = \csc x</math>, then <math>\frac{dy}{dx} = \csc(x)\cot(x)</math>. | + | If <math>y(x) = \csc x</math>, then <math>\frac{dy}{dx} = -\csc(x)\cot(x)</math>. |
Latest revision as of 09:50, 4 June 2024
Differentiation rules are rules (actually, theorems) used to compute the derivative of a function in calculus. In what follows, all functions are assumed to be differentiable.
Basic Rules
Derivative of a Constant: If is a constant function then .
Sum Rule: If then .
Product Rule: If then .
Quotient Rule: If then .
Chain Rule: If then .
Power Rule: If then . For integer this is just a consequence of the product and quotient rules and induction, but it can also be proven for all real numbers , e.g. by using the extended Binomial Theorem.
Derivatives of Trig Functions
Derivative of Sine If , then .
Derivative of Cosine If , then .
Derivative of Tangent If , then . Note that this follows from the Quotient Rule.
Derivative of Cosec If , then .