How to do differentiation in Matlab

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Anurag Sharma
Anurag Sharma on 28 May 2024
Edited: Torsten on 29 May 2024
clc;
clear;
THT = 0:12:360;
L_spm = [67.14387343 67.08087868 71.27139857 77.8011002 83.48598354 86.53313448 86.96218524 86.54264509 86.55222711 86.96002063 86.43128473 83.48041917 77.77271123 71.24225453 67.07111986 67.25745156 67.08157624 71.23009025 77.76475253 83.46615144 86.42639244 86.96777069 86.54247287 86.56340306 86.9412182 86.52945688 83.49766473 77.78259172 71.25635182 67.06788196 67.14602485];
How to differentiate L_spm with respect to THT? Thanks.

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Accepted Answer

James Tursa
James Tursa on 28 May 2024
Edited: James Tursa on 28 May 2024
Ran in:
Are you just asking for piecewise linear differencing for derivative calculations between the points? E.g.,
THT = 0:12:360;
L_spm = [67.14387343 67.08087868 71.27139857 77.8011002 83.48598354 86.53313448 86.96218524 86.54264509 86.55222711 86.96002063 86.43128473 83.48041917 77.77271123 71.24225453 67.07111986 67.25745156 67.08157624 71.23009025 77.76475253 83.46615144 86.42639244 86.96777069 86.54247287 86.56340306 86.9412182 86.52945688 83.49766473 77.78259172 71.25635182 67.06788196 67.14602485];
d = diff(L_spm) ./ diff(THT)
d = 1x30
-0.0052 0.3492 0.5441 0.4737 0.2539 0.0358 -0.0350 0.0008 0.0340 -0.0441 -0.2459 -0.4756 -0.5442 -0.3476 0.0155 -0.0147 0.3457 0.5446 0.4751 0.2467 0.0451 -0.0354 0.0017 0.0315 -0.0343 -0.2526 -0.4763 -0.5439 -0.3490 0.0065
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Or are you asking how to curve fit and calculate derivatives from the curve?
  2 Comments
Anurag Sharma
Anurag Sharma on 29 May 2024
Edited: Anurag Sharma on 29 May 2024
Thanks for your response & helping me with the differentiation. How do I plot d = diff(L_spm) ./ diff(THT).
When I am plotting 'd' with resepct to 'THT' using "plot(THT,d)". It gives me following error "Error using plot Vectors must be the same length"
Torsten
Torsten on 29 May 2024
Edited: Torsten on 29 May 2024
Ran in:
THT = 0:12:360;
L_spm = [67.14387343 67.08087868 71.27139857 77.8011002 83.48598354 86.53313448 86.96218524 86.54264509 86.55222711 86.96002063 86.43128473 83.48041917 77.77271123 71.24225453 67.07111986 67.25745156 67.08157624 71.23009025 77.76475253 83.46615144 86.42639244 86.96777069 86.54247287 86.56340306 86.9412182 86.52945688 83.49766473 77.78259172 71.25635182 67.06788196 67.14602485];
d = gradient(L_spm)./gradient(THT);
plot(THT,d)

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