1110779
Description
Flashcards by Freddy Ulate Agüero, updated more than 1 year ago
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Created by Freddy Ulate Agüero
over 9 years ago
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| Question | Answer |
| Constante | \[ c^{'} = 0 \] |
| Constante por función | \[ (cf)^{'} = cf^{'} \] |
| Suma-Resta de funciones | \[ (f \pm g)^{'} = f^{'} \pm g^{'} \] |
| Multiplicación de funciones | \[ (fg)^{'} = f^{'}g + fg^{'} \] |
| División de funciones | \[ \left(\frac{f}{g} \right)^{'} = \frac{f^{'}g - fg^{'}}{g^2} \] |
| Potencias | \[ x^{n} = nx^{n-1} \] |
| Logaritmo Natural | \[ (\ln x)^{'} = \frac{1}{x} \] |
| Logaritmo de base a | \[ (\log_a x)^{'} = \frac{1}{x \ln a} \] |
| Exponencial Natural | \[ (e^{x})^{'} = e^x \] |
| Función Exponencial | \[ (a^x)^{'} = a^x \ln a \] |
| Función Seno | \[ (\sin x)^{'} = \cos x \] |
| Función Coseno | \[ (\cos x)^{'} = - \sin x \] |
| Función Tangente | \[ (\tan x)^{'} = \sec^{2} x \] |
| Función Secante | \[ (\sec x)^{'} = \sec x \tan x \] |
| Función Cosecante | \[ (\csc)^{'} = - \csc x \cot x \] |
| Función Cotangente | \[ (\cot x)^{'} = - \csc^2 x\] |
| Regla de la cadena | \[ (f(g(x)))^{'} = f^{'}(g(x)) \cdot g^{'}(x) \] |
| Arcoseno | \[ (\arcsin x)^{'} = \frac{1}{\sqrt{1-x^2}} \] |
| Arcocoseno | \[ (\arccos)^{'} = \frac{-1}{\sqrt{1-x^2}} \] |
| Arcotangente | \[ (\arctan x)^{'} = \frac{1}{x^2+1} \] |
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