(1 point) Book Problem 35 Evaluate the integrals below by interpreting them in terms of areas....
EXAMPLE 4 Evaluate the following integrals by interpreting each in terms of areas. (a) y=V25-2 lov ✓ 25 - 2 dx or 10 + y = 25 (x - 3) dx SOLUTION (a) Since Rx) = V25 - x2 > 0, we can interpret this integral the area under the curve y = 25 - X2 from 0 to But we get x2 + y2 = 25, which shows that the graph of ris a quarter-circle with radius in the...
Problem 6. (1 point) (1 pt) Evaluate the integral below by interpreting it in terms of areas. In other words, draw a picture of the region the integral represents, and find the area using high school geometry. .V16 - rdx =
Evaluate the integral below by interpreting it in terms of areas. In other words, draw picture of the region the integral represents, and find the area using high school geometry. LV49 – x?dx =
Consider the graph of the functi y = f(x) 14 6 Evaluate the following integrals by interpreting them in terms of areas: [* f(e)dx = 4 a» [° s(m) do = 6 <-> ["s(e) dx = 8 (0 [° f(x) dx = 12 = 12
Previous Problem Problem List Next Problem (1 point) The graph of terms of areas. is shown below. Evaluate each integral by interpreting it in - swdx = 482) 2 [ "sw) dx = 40-p12 3. swdx = (1852 dx = -(8-pi)/2 x = (pi-8y/2 Note: You can click on the graph to enlarge the image. Note. You can earn nartial carlit on this nmblem.
ANSWER ASAP Problem 4. (1 point) The graph of f is shown below. Evaluate each integral by interpreting it in terms of areas. 1. 2. (12) dr = [*(z)dz - /"ra)dz = *** f(x) dx = Note: You can click on the graph to enlarge the image
can someone help me solve please Evaluate the integral by interpreting it in terms of areas: 3+ V81 – x2) dx dr =
Evaluate the integral by Interpreting it in terms of areas. Дашх 1 Даннан
The graph of f is shown. Evaluate each integral by interpreting it in terms of areas.(a) \(\int_{0}^{10} f(x) d x\)(b) \(\int_{0}^{25} f(x) d x\)(c) \(\int_{25}^{35} f(x) d x\)(d) \(\int_{0}^{45} f(x) d x\)
Evaluate the integral below by interpreting y=f(x) it in terms of areas in the figure. A1 A3 The areas of the labeled regions are 10 3 5 7 A4 A2 10 Al-5, A2=3, A3=2 and A4=2 (figure is NOT to scale) v-{"s(zde V=