1. ∫3xe^4x dx = 2. Use integration by parts to evaluate the integral: ∫2s cos(s)ds

Evaluate the integral using integration by parts with the indicated choices of u and dv. (Use...

Evaluate the integral using integration by parts with the indicated choices of u and dv. (Use C for the constant of integration.) xe5xdx;    u = x,  dv = e5xdx 2. Evaluate the integral. (Use C for the constant of integration.) (x2 + 10x) cos(x) dx 3. Evaluate the integral. (Use C for the constant of integration.) cos−1(x) dx 4. Evaluate the integral. (Use C for the constant of integration.) ln( x ) dx

Use integration by parts to evaluate the integral: ∫9xcos(−2x)dx

Use integration by parts to evaluate the integral: ∫9xcos(−2x)dx

Find this integral using Integration By Parts; use the Tabular D.I. method. ∫ e^(5x) cos x...

Find this integral using Integration By Parts; use the Tabular D.I. method. ∫ e^(5x) cos x dx

Use integration by parts to evaluate the following integrals: (a)? ∫x ln xdx (b)? ∫ x^2...

Use integration by parts to evaluate the following integrals: (a)? ∫x ln xdx (b)? ∫ x^2 e^4x dx

Evaluate double integral Z 2 0 Z 1 y/2 cos(x^2 )dx dy (integral from 0 to...

Evaluate double integral Z 2 0 Z 1 y/2 cos(x^2 )dx dy (integral from 0 to 2)(integral from y/2 to 1) for cos(x^2) dx dy

1. Find the partial fraction decomposition of the rational function: (2s − 4)/(s^2 + s)(s^2 +...

1. Find the partial fraction decomposition of the rational function: (2s − 4)/(s^2 + s)(s^2 + 1) 2. Find: ∫ (9x)/(sqrt. root(25-x^2)) dx +  ∫ (3)/(sqrt. root(25-x^2)) dx (use C for constant of integration). 3. Evaluate the following integral: ∫ 17t sin^2(t) dt

Question B:Consider the integral of sin(x) * cos(x) dx. i) Do it using integration by parts;...

Question B:Consider the integral of sin(x) * cos(x) dx. i) Do it using integration by parts; you might need the “break out of the loop” trick. I would do u=sin(x), dv=cos(x)dx ii) Do it using u-substitution. I would do u=cos(x) iii) Do it using the identity sin(x)*cos(x)=0.5*sin(2x) iv) Explain how your results in parts i,ii,iii relate to each other.

Use integration by parts to evaluate the integral: ∫ e^8r sin ( − 3r )dr

Use integration by parts to evaluate the integral: ∫ e^8r sin ( − 3r )dr

Evaluate the integral by reversing the order of integration. 2 0 2 6ex/y dy dx x

Evaluate the integral by reversing the order of integration. 2 0 2 6ex/y dy dx x

Evaluate the integral by reversing the order of integration. 1 0 3 7ex2 dx dy 3y

Evaluate the integral by reversing the order of integration. 1 0 3 7ex2 dx dy 3y