9,10,11 -/1 POINTS SCALCET8 5.5.057. Evaluate the definite integral. 10. -/1 POINTS SCALCET8 5.5.059. Evaluate the...
Find f(x) if f'(x) = 177 and f(1) = 1 Evaluate the definite integral -, xe** dx
if x < 1 f(x) = { * if x > 1 Evaluate the definite integral. [ºs(x)dx f(x) dx Evaluate the integral –9|x? – 4x|dx Evaluate the integral $." (048 + x) as Integral =
reverse the order of integration before solving please! 5. (12 points) Evaluate the definite integral 1 1(lnx)2 -dx dy. Го Jey 5. (12 points) Evaluate the definite integral 1 1(lnx)2 -dx dy. Го Jey
SCalcET8 16.2.015. Evaluate the line integral, where C is the given curve. ∫c z2 dx + x2 dy + y2 dz, C is the line segment from (1, 0, 0) to (3, 1, 4)
(10 pts) 1. Evaluate or determine the definite integral: Ni (a) (b) Seat (c) / xe dt. sin(at)dt.
help please Evaluate the definite integral using the Fundamental Theorem of Calculus. (1+ (1 + 14х5) dx Use The Fundamental Theorem of Calculus and the antiderivative found in Step 2 to evaluate the definite integral. fo* (2 + 14x5) dx = = (x+3x0916 (1+](O* )-( O*+O) “) 10 3
Evaluate the definite integral two ways: first by a V -substitution in the definite integral and then by a V -substitution in the corresponding indefinite integral. = Enter the exact answer. In2 Missing Plug-in J-In2 et + a dx =
(1 point) Evaluate the definite integral. | << + 1)e+2+28-3 dx =
please circle answers thank you! 5. (-/1 Points) DETAILS TANAPCALC10 6.5.008.MI. MY NOTES Evaluate the definite integral. dx Need Help? Read Talk to a Tutor DETAILS 6. (-/1 Points] TANAPCALC10 6.5.015.MI. MY NOTES Evaluate the definite integral. sxet? dx Need Help? Read Master Talk to a Tuter MY NOTES ASH 7. (-/1 Points) DETAILS TANAPCALC10 6.5.019. Evaluate the definite integral 1) dx Larola
Use the form of the definition of the integral given in the theorem to evaluate the integral. | Previous Answers SCalcET8 5.2.026. Ask Your Teacher 6. 2/4 points My Notes (a) Find an approximation to the integral (x24x) dx using a Riemann sum with right endpoints andn 8. R8 -10.5 n lim> 'f(x;) Ax, where Ax = -and x a + i Ax. Use this to evaluate (b) If f is integrable on [a, b], then f(x) dx (x2-4x) dx...