Evaluate the definite integral (sin 2x) dx over [0, pi/2] using Fundamental Theorem of Calculus Published 2021-06-29 Download video MP4 360p Download video MP4 720p Recommendations 02:46 Evaluate the Definite Integral (cos x) dx over [0, pi] using the Fundamental Theorem of Calculus 11:30 Fundamental Theorem of Calculus Part 1 12:56 Definite Integral With U-Substitution 05:13 Evaluate the Integral (x^2 sin x) dx. Integration by Parts 21:04 Calculus 1: The Fundamental Theorem of Calculus (Section 5.3) | Math with Professor V 10:45 Properties of Definite Integrals - Basic Overview 04:49 Integral of sin 3x sin x 33:51 Definite Integral Calculus Examples, Integration - Basic Introduction, Practice Problems 04:43 Integral of x sin x cos x ❖ Calculus ❖ Trig Integrals 22:28 so you want a HARD integral from the Berkeley Math Tournament 13:18 How to Find a Definite Integral using Riemann Sums and the Limit Definition: Quadratic Example 09:57 Definite Integral with Integration by Parts 08:04 Definite Integral Requiring Trigonometric Identities 03:38 Evaluate integral (3t-1)^50 dt over [0,1] using the substitution rule for definite integrals 04:12 Evaluating the Definite Integral of |cosx| from 0 to pi 11:03 U-substitution With Definite Integrals 10:14 Elliptic Curves and Modular Forms | The Proof of Fermat’s Last Theorem 07:00 Multiple applications of integration by parts definite integral x^2*sin(x) on [0,pi]. 05:09 Integral of sin^2x*cos^2x | Calculus 2 Exercises 02:27 How to evaluate the definite integral with trig and u substitution Similar videos 03:55 Evaluate definite integral (e^(4x) - sin^2 x) dx over [0, pi/2] with Fundamental Theorem of Calculus 03:34 Evaluate definite integral (sin^3 2x cos 2x) dx over [0, pi/4]. Fundamental Theorem of Calculus 04:55 Evaluate definite integral | sin 2x | over [0, pi]. Absolute value 03:32 Evaluate definite integral (sin x + cos x)^2 dx over [-pi, pi]. Fundamental Theorem of Calculus 06:45 Evaluate definite Integral by tabular integration from 0 to pi/2 , (x^2 sin 2x dx) 02:02 Evaluate definite integral (tan^2 x) dx over [0, pi/3] using Fundamental Theorem of Calculus 04:00 Evaluate definite integral (sin^3 x)/(1+ cos x) dx over [0, pi/2] using method of substitution 02:54 Integral of sin^2(x) from 0 to pi 01:58 evaluate the definite integral integration 0 to pi/2 cos2x dx 01:12 Evaluate the following definite integral int_(pi/2)^pi ( 6sinx - 20cosx ) dx 03:11 Evaluate integral cos x sin(sin x) dx over [0, pi/2]. The substitution rule for definite integrals 01:25 Learn how to find the derivative of the integral 02:47 Evaluate definite integral (cos^3 x sin x) dx over [0, pi/2] using method of substitution 03:14 Evaluate definite integral (cos 3x cos 2x) dx over [0, 2pi]. Fundamental Theorem of Calculus 06:29 Derivatives of Integrals (w/ Chain Rule) More results