Example 2 (a).  Compute numerical approximations for the derivative  [Graphics:Images/NumericalDiffMod_gr_44.gif],  using step sizes  [Graphics:Images/NumericalDiffMod_gr_45.gif],  include the details.

Solution 2 (a).

[Graphics:../Images/NumericalDiffMod_gr_52.gif]



[Graphics:../Images/NumericalDiffMod_gr_53.gif]
[Graphics:../Images/NumericalDiffMod_gr_54.gif]
[Graphics:../Images/NumericalDiffMod_gr_55.gif]
[Graphics:../Images/NumericalDiffMod_gr_56.gif]
[Graphics:../Images/NumericalDiffMod_gr_57.gif]
[Graphics:../Images/NumericalDiffMod_gr_58.gif]
[Graphics:../Images/NumericalDiffMod_gr_59.gif]
[Graphics:../Images/NumericalDiffMod_gr_60.gif]
[Graphics:../Images/NumericalDiffMod_gr_61.gif]
[Graphics:../Images/NumericalDiffMod_gr_62.gif]
[Graphics:../Images/NumericalDiffMod_gr_63.gif]
[Graphics:../Images/NumericalDiffMod_gr_64.gif]
[Graphics:../Images/NumericalDiffMod_gr_65.gif]
[Graphics:../Images/NumericalDiffMod_gr_66.gif]
[Graphics:../Images/NumericalDiffMod_gr_67.gif]
[Graphics:../Images/NumericalDiffMod_gr_68.gif]
[Graphics:../Images/NumericalDiffMod_gr_69.gif]
[Graphics:../Images/NumericalDiffMod_gr_70.gif]
[Graphics:../Images/NumericalDiffMod_gr_71.gif]

Aside.  Which step size h = 0.1, h = 0.01, or  h = 0.001 gave the best approximation.  Do you think that it will be better with  [Graphics:../Images/NumericalDiffMod_gr_72.gif] ?

[Graphics:../Images/NumericalDiffMod_gr_73.gif]
[Graphics:../Images/NumericalDiffMod_gr_74.gif]
[Graphics:../Images/NumericalDiffMod_gr_75.gif]
[Graphics:../Images/NumericalDiffMod_gr_76.gif]
[Graphics:../Images/NumericalDiffMod_gr_77.gif]
[Graphics:../Images/NumericalDiffMod_gr_78.gif]
[Graphics:../Images/NumericalDiffMod_gr_79.gif]
[Graphics:../Images/NumericalDiffMod_gr_80.gif]
[Graphics:../Images/NumericalDiffMod_gr_81.gif]
[Graphics:../Images/NumericalDiffMod_gr_82.gif]

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

(c) John H. Mathews 2004