Calculate the difference between minimum values of a parabola and straight line (from a plot)

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Alina Abdikadyr on 10 Feb 2023

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Commented: Les Beckham on 10 Feb 2023

Hello everyone, please could you help me with a code.

How I can calculate the values from a plot? I need the difference between straight line (P) and between the minimum value of a parabola (P) for each curve.

So, for example in this curve, the difference between the straight blue curve and the first parabola, then the next straight line and green parabola and so on.

My code is:

clear all; close all
W = 60000;
S = 28.2;
AR=7;
cd0 = 0.02;
k = 0.04;
RC=0.51;
clalpha = 2*pi;
Psl=741000; 
hv=0:1:10;
cdminp=4*cd0;
clminp=sqrt(3*cd0/k);
Vmin=sqrt(2*W/(1.225*28.2*clminp));
D=0.5*1.225*Vmin^2*S*cdminp;
Pminreq=D*Vmin;
deltaPgiven=RC*W;
figure(1);hold on; xlabel('V');ylabel('P')
hv=0:1:10;
for k1 = 1:numel(hv)
    h = hv(k1);
    i=0;
    for alpha = 1:0.25:15
        i=i+1;
        rho(i)=1.225*exp(-h/10.4);
        cl(i) = clalpha * alpha * pi/180;
        V(i) = sqrt(2*W/rho(i)/S/cl(i));
        L(i) = 0.5 * rho(i) * V(i) * V(i) * S * cl(i);
        cd(i) = cd0 + k * cl(i) * cl(i);
        D(i) = 0.5 * rho(i) * V(i) * V(i) * S * cd(i);
        clcd(i) = cl(i)/cd(i);
        p(i) = D(i)*V(i);
        Ph(i)=Psl*(rho(i)/1.225).^0.75;
    end
    figure(1); plot(V,p)
    hold on 
    plot(V,Ph);
end

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Answer 1

Les Beckham on 10 Feb 2023

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https://au.mathworks.com/matlabcentral/answers/1910540-calculate-the-difference-between-minimum-values-of-a-parabola-and-straight-line-from-a-plot#answer_1168795

Edited: Les Beckham on 10 Feb 2023

Open in MATLAB Online

Maybe this?

W = 60000;

S = 28.2;

AR=7;

cd0 = 0.02;

k = 0.04;

RC=0.51;

clalpha = 2*pi;

Psl=741000;

hv=0:1:10;

cdminp=4*cd0;

clminp=sqrt(3*cd0/k);

Vmin=sqrt(2*W/(1.225*28.2*clminp));

D=0.5*1.225*Vmin^2*S*cdminp;

Pminreq=D*Vmin;

deltaPgiven=RC*W;

figure(1);hold on; xlabel('V');ylabel('P')

hv=0:1:10;

for k1 = 1:numel(hv)

h = hv(k1);

i=0;

for alpha = 1:0.25:15

i=i+1;

rho(i)=1.225*exp(-h/10.4);

cl(i) = clalpha * alpha * pi/180;

V(i) = sqrt(2*W/rho(i)/S/cl(i));

L(i) = 0.5 * rho(i) * V(i) * V(i) * S * cl(i);

cd(i) = cd0 + k * cl(i) * cl(i);

D(i) = 0.5 * rho(i) * V(i) * V(i) * S * cd(i);

clcd(i) = cl(i)/cd(i);

p(i) = D(i)*V(i);

Ph(i)=Psl*(rho(i)/1.225).^0.75;

end

figure(1); plot(V,p)

hold on

plot(V,Ph);

[pmin, imin] = min(p); % find the min p

deltas(k1) = Ph(1) - pmin; % calculate the difference

tolerance = 5000; % or whatever you want

if (abs(deltas(k1) - 300000) < tolerance)

fprintf('delta = %8.1f at h = %4.1f, rho = %.5f, V = %.2f, Ph = %.1f, p = %.1f\n', ...

deltas(k1), h, rho(imin), V(imin), Ph(imin), p(imin))

end

delta = 302330.3 at h = 4.0, rho = 0.83387, V = 64.31, Ph = 555317.0, p = 252986.7

legend(compose('h = %.1f', hv), 'location', 'northwest')

grid on

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Alina Abdikadyr on 10 Feb 2023

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Yes, you inderstand it correctly, where I should put this piece of code? I implmented it here:

clear all; close all
W = 60000;
S = 28.2;
AR=7;
cd0 = 0.02;
k = 0.04;
RC=0.51;
clalpha = 2*pi;
Psl=741000; 
hv=0:1:10;
cdminp=4*cd0;
clminp=sqrt(3*cd0/k);
Vmin=sqrt(2*W/(1.225*28.2*clminp));
D=0.5*1.225*Vmin^2*S*cdminp;
Pminreq=D*Vmin;
deltaPgiven=RC*W;
figure(1);hold on; xlabel('V');ylabel('P')
hv=0:1:10;
for k1 = 1:numel(hv)
    h = hv(k1);
    i=0;
    for alpha = 1:0.25:15
        i=i+1;
        rho(i)=1.225*exp(-h/10.4);
        cl(i) = clalpha * alpha * pi/180;
        V(i) = sqrt(2*W/rho(i)/S/cl(i));
        L(i) = 0.5 * rho(i) * V(i) * V(i) * S * cl(i);
        cd(i) = cd0 + k * cl(i) * cl(i);
        D(i) = 0.5 * rho(i) * V(i) * V(i) * S * cd(i);
        clcd(i) = cl(i)/cd(i);
        p(i) = D(i)*V(i);
        Ph(i)=Psl*(rho(i)/1.225).^0.75;
    end
    figure(1); plot(V,p)
    hold on 
    plot(V,Ph);
    [pmin, imin] = min(p); % find the min p
    deltas(k1) = Ph(1) - pmin; % calculate the difference
tolerance = 1000; % or whatever you want
if (abs(deltas(k1) - 30000) < tolerance)
    fprintf('delta = %8.1f at h = %4.1f, rho = %.5f, V = %.2f, Ph = %.1f, p = %.1f\n', ...
        deltas(k1), h, rho(imin), V(imin), Ph(imin), p(imin))
end
legend(compose('h = %.1f', hv), 'location', 'northwest')
grid on
end

Alina Abdikadyr on 10 Feb 2023

Thank you! What does the tolerance value mean?

Les Beckham on 10 Feb 2023

It just represents how close to 300000 the delta has to be to make the code print the results. Adjust as desired.

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Answer 2

Torsten on 10 Feb 2023

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https://au.mathworks.com/matlabcentral/answers/1910540-calculate-the-difference-between-minimum-values-of-a-parabola-and-straight-line-from-a-plot#answer_1168820

Edited: Torsten on 10 Feb 2023

Open in MATLAB Online

syms h V W S rho cd0 k cl Psl
eqn = V == sqrt(2*W/rho/S/cl);
cl = solve(eqn,cl);
Warning: Solutions are only valid under certain conditions. To include parameters and conditions in the solution, specify the 'ReturnConditions' value as 'true'.
cd = cd0 + k * cl^2;
D = 0.5 * rho * V * V * S * cd;
p = D*V;
Vmin = solve(diff(p,V)==0,V);
pmin = subs(p,V,Vmin);
Ph = Psl*(rho/1.225)^0.75;
hnum = 0:0.01:10;
Wnum = 60000;
Snum = 28.2;
rhonum = 1.225*exp(-hnum/10.4);
cd0num = 0.02;
knum = 0.04;
Pslnum = 741000;
for i = 1:numel(hnum)
  Phnum(i) = double(subs(Ph,[rho Psl],[rhonum(i),Pslnum]));
  pm = double(subs(pmin,[W S rho cd0 k],[Wnum Snum rhonum(i) cd0num,knum]));
  pminnum(i) = pm(end);
  deltaP(i) = Phnum(i)-pminnum(i);
end
format long
deltaP.'
ans = 1001×1
1.0e+05 *

   5.322767552311991
   5.316422010284389
   5.310079836471793
   5.303741027866013
   5.297405581460750
   5.291073494251587
   5.284744763235998
   5.278419385413340
   5.272097357784856
   5.265778677353669
idx = deltaP > 2.8e5 & deltaP < 3.2e5;  % select those deltaP with 2.8e5 <= deltaP < = 3.2e5
[hnum(idx).' deltaP(idx).']                 % Show these values together with the corresponding h values
ans = 77×2
1.0e+05 *

   0.000036700000000   3.196913122178178
   0.000036800000000   3.191616062324753
   0.000036900000000   3.186321382077705
   0.000037000000000   3.181029079029593
   0.000037100000000   3.175739150774377
   0.000037200000000   3.170451594907418
   0.000037300000000   3.165166409025479
   0.000037400000000   3.159883590726722
   0.000037500000000   3.154603137610705
   0.000037600000000   3.149325047278384

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Alina Abdikadyr on 10 Feb 2023

Thank you very much! But If I will have more h values, so may I display the deltaP values that are almost equal to 3?

Torsten on 10 Feb 2023

Edited: Torsten on 10 Feb 2023

Open in MATLAB Online

Add the lines

idx = deltaP > 2.8e5 & deltaP < 3.2e5;  % select those deltaP with 2.8e5 <= deltaP < = 3.2e5
[hnum(idx) deltaP(idx)]                 % Show these values together with the corresponding h values

at the end of the code.

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Calculate the difference between minimum values of a parabola and straight line (from a plot)

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Calculate the difference between minimum values of a parabola and straight line (from a plot)

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