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how to create shape on xy surface?

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Asliddin Komilov
Asliddin Komilov on 14 Nov 2023
Commented: Asliddin Komilov on 20 Nov 2023
I need to calculate the area of shapes (parallelograms) that lay on one another. Their width is equal to 2. One of the angles (H) and the 'length' are variables (attached). So at the first I have created the list of the tasks:
  1. create the shape for the each case
  2. lay the shapes one on another
  3. and calculate the created shape's area
I have no idea how to do it, but looking into different options.
You are welcome to help with any of 3 tasks or with all of them.
I came accross with this
https://www.mathworks.com/matlabcentral/answers/1886402-creating-a-projection-of-a-surface-on-a-plane-for-area-calculation?s_tid=sug_su
but I am still far away from understanding how to handle my task.
If it is simple for you, code it please, otherwise any hints and links to similar questions will be very helpful.
Thanks in advance.
  2 Comments
Les Beckham
Les Beckham on 14 Nov 2023
Edited: Les Beckham on 14 Nov 2023
Ran in:
Can you explain (preferably with a sketch) what you mean by "angles" and "length"?
Also, more than half of your length values are zero (see below).
S = load('variable.mat');
plot(S.H, '.')
hold on
grid on
plot(S.length(S.length ~= 0), '.')
Asliddin Komilov
Asliddin Komilov on 17 Nov 2023
Edited: Asliddin Komilov on 17 Nov 2023
Hi, thanks for the reply
sorry for the inconvinience, this will sort the data:
angle=angle(length>0);
length=length(length>0);
so, the coordinates of the baseline (width at the bottom) stays the same.
thanks in advance

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Accepted Answer

Chunru
Chunru on 17 Nov 2023
Edited: Chunru on 20 Nov 2023
Ran in:
websave("variable.mat", "https://www.mathworks.com/matlabcentral/answers/uploaded_files/1538662/variable.mat");
S = load('variable.mat');
% idx = S.H ~= 0 & S.length ~=0;
idx = S.length ~=0;
% Do computations only on the nonzero length and angle
S.H = 90 + S.H(idx)'; % check your definition of angle
S.length = S.length(idx)';
[S.H S.length]
ans = 108×2
23.1578 12.4611 24.4078 6.2578 25.6578 4.1901 26.9078 3.1563 28.1578 2.5361 29.4078 2.1227 30.6578 1.8275 31.9078 1.6062 33.1578 1.4341 34.4078 1.2966
min(abs(S.H)), max(abs(S.H))
ans = single 23.1578
ans = single 156.9078
whos
Name Size Bytes Class Attributes S 1x1 1200 struct ans 1x1 4 single cmdout 1x33 66 char idx 1x289 289 logical
% create the shape for the each case
n = length(S.H)
n = 108
w = 2;
S.X = [zeros(n,1) 2+zeros(n,1) S.length.*cosd(S.H)+2 S.length.*cosd(S.H)];
S.Y = [zeros(n,1) zeros(n,1) S.length.*sind(S.H) S.length.*sind(S.H)];
% lay the shapes one on another
figure
plot(S.X(:, [1:end 1])', S.Y(:, [1:end 1])') % plot all shapes
% plot shapes evry other 10
figure
plot(S.X(1:10:end, [1:end 1])', S.Y(1:10:end, [1:end 1])')
axis([-2 4 0 2])
% and calculate the created shape's area
S.A = abs(S.length.*w.*sind(S.H));
figure;
plot(S.A);
xlabel("Shape Index"); ylabel("Area")
  7 Comments
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Chunru
Chunru on 20 Nov 2023
You have 108 shapes with length>0. The shape index (i from 1 to 108) is the reference to the i-th shape you have.
You can sum all the area by: sum(S.A)

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