(12 points) Note: You can get full credit for this problem by just answering the last question correctly. The initial questions are meant as hints towards the final answer and also allow you the opportunity to get partial credit. Also the appropriate way to enter roots (except sqrt) into WeBWork is to use fractional exponents. Consider the definite integral $\int_0^1 \frac{dx}{\sqrt{x} + 4\sqrt[4]{x}}$ Then the most appropriate substitution to simplify this integral is $u = $ Then $dx = f(x) du$ where $f(x) = $ After making the substitution and simplifying we obtain the integral $\int_a^b g(u) du$ where $g(u) = $ $a = $ $b = $ This definite integral has value =
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Step 1: The most appropriate substitution to simplify the integral \int_0^1 (dx)/(\sqrt(x)+4\root(3)(x)) is to let u = \sqrt(x) + 4\root(3)(x). Show more…
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Note: You can get full credit for this problem by just answering the last question correctly. The initial questions are meant as hints towards the final answer and also allow you the opportunity to get partial credit. Also the appropriate way to enter roots (except sqrt) into WeBWorK is to use fractional exponents. Consider the definite integral ∫₀¹ dx / (√x + 6∛x) Then the most appropriate substitution to simplify this integral is u = Then dx = f(x) du where f(x) = After making the substitution and simplifying we obtain the integral ∫ₐᵇ g(u) du where g(u) = a = b = This definite integral has value =
Vaidik S.
Zhumagali S.
1) Integrate the following (partial fractions). a) ∡ 1/(1-x²) dx b) ∡ 1/((1-x²)(2-x)) dx c) ∡ (2x-1)/(1-x⁴) dx d) ∡ 1/(1-x³) dx 12) Evaluate the following improper integrals. a) ∡₀¹⁰ 1/√̄x̄ dx b) ∡₁∞ ln(x)/x dx c) ∡₀¹ 1/(1-x²) dx d) Does ∡₁∞ 1/(1+x⁵) dx converge? e) Does ∡₁∞ e⁻ˣ²/x dx converge? f) Does ∡₁² 1/(1-x³) dx converge? 13) a) Find the area of the circle x² + (y-2)² = 4 using polar coordinates. b) Find the area of the region inside the cardioid r = 1 + cos(ϑ) and above the line y = x. c) Find the area of the region inside one leaf of the three-leaved rose r = cos(3ϑ). d) Find the length of the spiral r = ϑ from 0 ≤ ϑ ≤ 2π.
Adi S.
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