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Solution Manual For Principles of Taxation for Business and Investment Planning 2024 27th

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Solution Manual For Principles of Taxation for Business and Investment Planning 2024 27th Edition By Sally Jones, Shelley RhoadesCatanach, Callaghan, Kubick (All Chapters, 100% Original Verified, A+ Grade) Find the right-sided Riemann Sum of sin(x^2) with n = 4, from [0, 4] - ANS-Right S...

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  • September 21, 2024
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Solution Manual For Principles of Taxation for
Business and Investment Planning 2024 27th
Edition By Sally Jones, Shelley Rhoades-
Catanach, Callaghan, Kubick (All Chapters,
100% Original Verified, A+ Grade)

Find the right-sided Riemann Sum of sin(x^2) with n = 4, from [0, 4] - ANS-Right
S4 = (1)[sin(1^2) + sin(2^2) + sin(3^2) + sin(4^2)]
Right S4 = (1)[sin(1) + sin(4) + sin(9) + sin(16)]
Right S4 = .201

Find the midpoint Riemann Sum of sin(x^2) with
n = 4, from [0, 4] - ANS-Mid S4 = (1)[sin(.5^2) + sin(1.5^2) + sin(2.5^2) +
sin(3.5^2)]
Mid S4 = (1)[sin(.25) + sin(2.25) + sin(6.25) + sin(12.25)]
Mid S4 = .681

Find the left-sided Riemann Sum of ln(x^2) with n=2, from [1, 3] - ANS-Left S2 =
(1)[ln(1^2) + ln(2^2)]
Left S2 = (1)[ln(1) + ln(4)]
Left S2 = 1.386

Find the right-sided Riemann Sum of cos(x^2) with n = 3, from [2, 5] - ANS-Right
S3 = (1)[cos(3^2) + cos(4^2) + cos(5^2)]
Right S3 = (1)[cos(9) + cos(16) + cos(25)]
Right S3 = -.878

Approximate the area between the x-axis and h(x) = 1/(7-x) from x = 2 to x = 5
using a left Riemann sum with 3 equal subdivisions. - ANS-Area = (1)[h(2) +h(3)
+h(4)]
Area = (1)[1/5 +1/4 +1/3]
Area = 47/60

, Use the trapezoidal approximation for the integral of (sinx)^2dx from [0, 1] with n
= 4 to three decimal places. - ANS-Trapezoid = (1/2)(1/4)[(sin(0))^2
+2(sin(1/4))^2 +2(sin(1/2))^2 +2(sin(3/4))^2 +(sin(1))^2]

Trapezoid = .277



Find the midpoint Riemann Sum of cos(x^2) with n = 4, from [0, 2] - ANS-Mid S4
= (1)(1/2)[cos(.25^2) + cos(.75^2) + cos(1.25^2) + cos(1.75^2)]
Mid S4 = (1)(1/2)[cos(.625) + cos(.5625) + cos(1.5625) cos(3.0625)]
Mid S4 = .824

If the function f is continuous for all real numbers and if f(x) = (x^2-7x +12)/(x -4)
when x ≠ 4 then f(4) = - ANS-Factor numerator so
f(x) = (x-3)(x-4)/(x-4) = x-3
f(4)=4-3
f(4) = 1

If f(x) = (x^2+5) if x < 2, & f(x) = (7x -5) if x ≥ 2 for all real numbers x, which of
the following must be true?

I. f(x) is continuous everywhere.
II. f(x) is differentiable everywhere.
III. f(x) has a local minimum at x = 2. - ANS-At f(2) both the upper and lower
piece of the discontinuity is 9 so the function is continuous everywhere.

At f'(2) the upper piece is 4 and lower piece is 7 so f(x) is not differentiable
everywhere.

Since the slopes of the function on the left and right are both positive the
function cannot have a local minimum or maximum at x= 2.

Only I is true.

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