![SOLVED: point) The improper integral xdx is A. divergent since x dx is convergent and x dx is divergent: B. convergent since it equals lim xdx = lim (2-6)=o 1 0 ( 00 SOLVED: point) The improper integral xdx is A. divergent since x dx is convergent and x dx is divergent: B. convergent since it equals lim xdx = lim (2-6)=o 1 0 ( 00](https://cdn.numerade.com/ask_images/8e8e8b67894f45fe8f2897ec0eb311ff.jpg)
SOLVED: point) The improper integral xdx is A. divergent since x dx is convergent and x dx is divergent: B. convergent since it equals lim xdx = lim (2-6)=o 1 0 ( 00
![prove that integral from a to b f(x) dx = integral from a to b f(a+b-x)dx hence evaluate integral fromx/3 - Maths - Limits and Derivatives - 14208287 | Meritnation.com prove that integral from a to b f(x) dx = integral from a to b f(a+b-x)dx hence evaluate integral fromx/3 - Maths - Limits and Derivatives - 14208287 | Meritnation.com](https://s3mn.mnimgs.com/img/shared/content_ck_images/ck_5e9406f7bce93.jpg)
prove that integral from a to b f(x) dx = integral from a to b f(a+b-x)dx hence evaluate integral fromx/3 - Maths - Limits and Derivatives - 14208287 | Meritnation.com
If f(a + b - x) = f(x), then prove that ∫ xf(x) dx = (a + b)/2 f(x) dx, x ∈ [a, b] - Sarthaks eConnect | Largest Online Education Community
![SOLVED: Suppose f is an even function and f(x) dx = 6. a. Evaluate f(x) dx b. Evaluate xf(x) dx a. Evaluate the definite integral. f(x) dx (Simplify your answer:) b. Evaluate SOLVED: Suppose f is an even function and f(x) dx = 6. a. Evaluate f(x) dx b. Evaluate xf(x) dx a. Evaluate the definite integral. f(x) dx (Simplify your answer:) b. Evaluate](https://cdn.numerade.com/ask_images/4a0feee08a44482ca472c002b6860c10.jpg)