e^sin(pi*x) using the chain rule

0:01:21

Derivative of e^sin(pi*x) using the chain rule two times. Chain rule twice derivative.

0:03:16

Definite integral of sin(pi*x) on [0,2]. Integrate by symmetry vs. using the chain rule backwards.

0:00:57

Derivative of sin(pi*x^2): derivative with the chain rule and sin function.

0:05:10

Definite integral sin(pi*x)cos(pi*x): informally (chain rule backwards) vs. formal u-substitution.

0:01:02

Find the derivative of y=sin(pi x) | Plainmath

0:02:22

Use the chain rule with sine to take the derivative

0:04:58

Derivative of e^2x, e^x^2, e^sinx with Chain Rule | Calculus 1 Exercises

0:00:56

Derivative of 2sec(pi*x) using the chain rule. Differentiate with respect to the argument.

0:01:34

Derivative of y = 6sin(6pix) using the Chain Rule

0:01:48

u-substitution integral sin(pi*x) antiderivative using substitution to get integral of sin(pi*x).

0:12:03

Derivatives of Exponential Functions

0:02:16

Obtain the equation of the tangent line to f(x)=sin(pi*x) at x=0.5.

0:03:57

Differentiate the function f(t) = sin^2(e^(sin^2 t)). Natural exponential function

0:00:35

How REAL Men Integrate Functions

0:16:36

The Chain Rule... How? When? (NancyPi)

0:04:08

e^(iπ) in 3.14 minutes, using dynamics | DE5

0:08:37

Integrate e^x*sin(pi*x) integration by parts multiple times. Apply integration by parts twice!

0:03:14

Find the derivative of the function y = sin^2(2pi x -a)

0:00:53

Find the derivative of sin(pi*x^2)

0:03:48

Integral of sin(pi*x) using substitution informally and formally.

0:02:15

Integral of pi*sin(pi*x)

0:01:29

Calculus Help: First Derivative - y= sin(pi x)/pi or sin(πx)/π . Technique to solve

0:01:29

How to differentiate y=sin(4x) using the Chain Rule

0:10:44

Trig Derivatives using the Chain Rule