From ca574971069c38d1b9d3ec2d2f9e3510c9189fac Mon Sep 17 00:00:00 2001 From: arc Date: Fri, 21 Mar 2025 11:09:14 -0600 Subject: [PATCH] vault backup: 2025-03-21 11:09:14 --- education/math/MATH1210 (calc 1)/Integrals.md | 30 +++++++++---------- 1 file changed, 15 insertions(+), 15 deletions(-) diff --git a/education/math/MATH1210 (calc 1)/Integrals.md b/education/math/MATH1210 (calc 1)/Integrals.md index e31096c..cd5a614 100644 --- a/education/math/MATH1210 (calc 1)/Integrals.md +++ b/education/math/MATH1210 (calc 1)/Integrals.md @@ -20,18 +20,18 @@ $$ \int f(x) dx $$ ## Formulas -| Differentiation Formula | Integration Formula | -| ----------------------------------------------------- | --------------------------------------------------------- | -| $\dfrac{d}{dx} x^n = nx^{x-1}$ | $\int x^n dx = \dfrac{1}{n+1}x^{n+1}+ C$ for $n \ne -1$ | -| $\dfrac{d}{dx} kx = k$ | $\int k \space dx = kx + C$ | -| $\dfrac{d}{dx} \ln \|x\| = \dfrac{1}{x}$ |
$\int \dfrac{1}{x}dx = \ln \|x\| + C$ | -| $\dfrac{d}{dx} e^x = e^x$ |
$\int e^x dx = e^x + C$ | -| $\dfrac{d}{dx} a^x = (\ln{a}) a^x$ | $\int a^xdx = \ln \|x\| + C$ | -| $\dfrac{d}{dx} \sin x = \cos x$ | $\int \cos(x) dx = \sin (x) + C$ | -| $\dfrac{d}{dx} \cos x = -\sin x$ | $\int \sin(x)dx = \sin x + C$ | -| $\dfrac{d}{dx} \tan{x} = \sec^2 x$ | $\int \sec^2(x)dx = \tan(x) + C$ | -| $\dfrac{d}{dx} \sec x = \sec x \tan x$ | $\int sec^2(x) dx = \sec(x) + C$ | -| $\dfrac{d}{dx} \sin^{-1} x = \dfrac{1}{\sqrt{1-x^2}}$ | $\int \sec(x) \tan(x) dx = \sec x + C$ | -| $\dfrac{d}{dx} \tan^{-1} x = \dfrac{1}{1+x^2}$ | $\int \dfrac{1}{\sqrt{1+x^2}}dx = \tan^{-1}x + C$ | -| $\dfrac{d}{dx} k f(x) = k f'(x)$ | $\int k*f(x)dx = k\int f(x)dx$ | -| $\dfrac{d}{dx} f(x) \pm g(x) = f'(x) \pm g'(x)$ | $\int (f(x) \pm g(x))dx = \int f(x) dx \pm \int g(x) dx$ | +| Differentiation Formula | Integration Formula | +| ----------------------------------------------------- | -------------------------------------------------------- | +| $\dfrac{d}{dx} x^n = nx^{x-1}$ | $\int x^n dx = \dfrac{1}{n+1}x^{n+1}+ C$ for $n \ne -1$ | +| $\dfrac{d}{dx} kx = k$ | $\int k \space dx = kx + C$ | +| $\dfrac{d}{dx} \ln \|x\| = \dfrac{1}{x}$ |
$\int \dfrac{1}{x}dx = \ln \|x\| + C$ | +| $\dfrac{d}{dx} e^x = e^x$ |
$\int e^x dx = e^x + C$ | +| $\dfrac{d}{dx} a^x = (\ln{a}) a^x$ | $\int a^xdx = \ln \|x\| + C$ | +| $\dfrac{d}{dx} \sin x = \cos x$ | $\int \cos(x) dx = \sin (x) + C$ | +| $\dfrac{d}{dx} \cos x = -\sin x$ | $\int \sin(x)dx = \sin x + C$ | +| $\dfrac{d}{dx} \tan{x} = \sec^2 x$ | $\int \sec^2(x)dx = \tan(x) + C$ | +| $\dfrac{d}{dx} \sec x = \sec x \tan x$ | $\int sec^2(x) dx = \sec(x) + C$ | +| $\dfrac{d}{dx} \sin^{-1} x = \dfrac{1}{\sqrt{1-x^2}}$ | $\int \sec(x) \tan(x) dx = \sec x + C$ | +| $\dfrac{d}{dx} \tan^{-1} x = \dfrac{1}{1+x^2}$ | $\int \dfrac{1}{\sqrt{1+x^2}}dx = \tan^{-1}x + C$ | +| $\dfrac{d}{dx} k f(x) = k f'(x)$ | $\int k*f(x)dx = k\int f(x)dx$ | +| $\dfrac{d}{dx} f(x) \pm g(x) = f'(x) \pm g'(x)$ | $\int (f(x) \pm g(x))dx = \int f(x) dx \pm \int g(x) dx$ |