![SOLVED: First make a substitution and then use integration by parts to evaluate the integral. COS (In :) d arcsin(ln x) dz Use the integration by parts to prove the reduction formula SOLVED: First make a substitution and then use integration by parts to evaluate the integral. COS (In :) d arcsin(ln x) dz Use the integration by parts to prove the reduction formula](https://cdn.numerade.com/ask_images/4f48c90bcc404ac0812cf5980dd03f88.jpg)
SOLVED: First make a substitution and then use integration by parts to evaluate the integral. COS (In :) d arcsin(ln x) dz Use the integration by parts to prove the reduction formula
![ordinary differential equations - Particular integral of $x^2 y''-xy'+4y=\ cos(\ln{x})+x\cdot \sin(\ln{x})$ - Mathematics Stack Exchange ordinary differential equations - Particular integral of $x^2 y''-xy'+4y=\ cos(\ln{x})+x\cdot \sin(\ln{x})$ - Mathematics Stack Exchange](https://i.stack.imgur.com/Tpzrn.jpg)
ordinary differential equations - Particular integral of $x^2 y''-xy'+4y=\ cos(\ln{x})+x\cdot \sin(\ln{x})$ - Mathematics Stack Exchange
![SOLVED: Evaluate the integral. ∫(2x e^x sin(√x^2)) dx A) 1 + cos(√x) B) -1 C) 1 - cos(√x) D) 1 Evaluate the integral by using substitution prior to integration by parts: ∫(cos(ln(x))) SOLVED: Evaluate the integral. ∫(2x e^x sin(√x^2)) dx A) 1 + cos(√x) B) -1 C) 1 - cos(√x) D) 1 Evaluate the integral by using substitution prior to integration by parts: ∫(cos(ln(x)))](https://cdn.numerade.com/ask_images/811299f397f54d8685ac087c6cc07626.jpg)