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Part CFill in the table, and complete the first iteration of successive approximation using the expression for f(x) - g(x) from partB. Based on where the zero of f(x) – g(x) lies, the starting upper and lower bounds are given.

Part CFill In The Table And Complete The First Iteration Of Successive Approximation Using The Expression For Fx Gx From PartB Based On Where The Zero Of Fx Gx class=

Sagot :

Okay, here we have this:

Considering the provided information, we are going to replace in the function f(x)-g(x), with the given values of bounds:

Lower bound (x=4):

[tex]\begin{gathered} f(4)-g(4)=2.5e^{-0.04\cdot\: 4}-0.2\cdot\: 4-1.2 \\ =2.5e^{\mleft\{-0.16\mright\}}-0.8-1.2 \\ =2.5\cdot\frac{1}{e^{0.16}}-2 \\ \approx0.13 \end{gathered}[/tex]

The first value on the right side of the table is the one we just got.

Average of the bounds (x=4.5):

[tex]\begin{gathered} f(4.5)-g(4.5)=2.5e^{-0.04\cdot\: 4.5}-0.2\cdot\: 4.5-1.2 \\ =2.5e^{\mleft\{-0.18\mright\}}-0.9-1.2 \\ =2.5\cdot\frac{1}{e^{0.18}}-2.1 \\ =-0.01 \end{gathered}[/tex]

The second value on the right side of the table is the one we just got.

Upper bound:

[tex]\begin{gathered} f(5)-g(5)=2.5e^{-0.04\cdot\: 5}-0.2\cdot\: 5-1.2 \\ =2.5e^{\mleft\{-0.2\mright\}}-1-1.2 \\ =2.5\cdot\frac{1}{e^{0.2}}-2.2 \\ =-0.15 \end{gathered}[/tex]

The third value on the right side of the table is the one we just got.

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