Try to solve this Integral involving the Golden Ratio.. Comment down below if you know how to solve this problem! Mention someone who you… | Instagram
![Need help understanding this problem (definite integral?) Problem+answer+steps to solve included in a image : r/calculus Need help understanding this problem (definite integral?) Problem+answer+steps to solve included in a image : r/calculus](https://external-preview.redd.it/7DtjXGUJqP9qUncHcYyBYh5h0x_5clkCrAbe_lZdjbk.png?auto=webp&s=ad19a06f92ee379e21998ed985b4214705f548d6)
Need help understanding this problem (definite integral?) Problem+answer+steps to solve included in a image : r/calculus
![Why do you always take the lower bound of the integral (u=0) when solving the integral? Isn't it F(1) - F(0)? Thanks. : r/calculus Why do you always take the lower bound of the integral (u=0) when solving the integral? Isn't it F(1) - F(0)? Thanks. : r/calculus](https://preview.redd.it/why-do-you-always-take-the-lower-bound-of-the-integral-u-0-v0-6b78a8gkn9e91.png?width=640&crop=smart&auto=webp&s=007092949fbcf4f6e4f3c4ced0e31ae139715ae4)
Why do you always take the lower bound of the integral (u=0) when solving the integral? Isn't it F(1) - F(0)? Thanks. : r/calculus
![Solving Definite Integrals by Rearranging the Integrand into an Equivalent Form | Calculus | Study.com Solving Definite Integrals by Rearranging the Integrand into an Equivalent Form | Calculus | Study.com](https://study.com/cimages/videopreview/videopreview-full/b9v8ra91v5.jpg)