A= 1B = 1C= 5 z = x = C +.1', The figure below shows an area in gray, delimited by the curves of y = 0, x = 1 and - where the numeric value is taken from your candidate number. The shape of the last...


handwritten solution for part b


A= 1B = 1C= 5<br>z =<br>x =<br>C +.1',<br>The figure below shows an area in gray, delimited by the curves of y = 0, x = 1 and -<br>where the numeric value is taken from your candidate number. The shape of the last curve depends on<br>your constant C.<br>--<br>C+1<br>a) We are going to calculate the integral of a function f (x, y) over the area given by the figure.<br>Write the two different ways (different integration order) of the double-belt integral of f (x, y)<br>over the area<br>„f(x,y) = f(x) = ez(C+1)<br>%3D<br>b) Calculate the double integral of<br>Cis still the same value from the candidate number<br>over the outlined area.<br>

Extracted text: A= 1B = 1C= 5 z = x = C +.1', The figure below shows an area in gray, delimited by the curves of y = 0, x = 1 and - where the numeric value is taken from your candidate number. The shape of the last curve depends on your constant C. -- C+1 a) We are going to calculate the integral of a function f (x, y) over the area given by the figure. Write the two different ways (different integration order) of the double-belt integral of f (x, y) over the area „f(x,y) = f(x) = ez(C+1) %3D b) Calculate the double integral of Cis still the same value from the candidate number over the outlined area.

Jun 05, 2022
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