Solving a large equation

Question

Nicholas 2014 年 9 月 2 日

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https://jp.mathworks.com/matlabcentral/answers/153122-solving-a-large-equation

コメント済み: Walter Roberson 2020 年 3 月 25 日

I have a large equation of the form:

8.5567=10.75-158.34*y+2112.07*y^2-12211.07*y^3-29.44*x+2185.91*x*y-35690.08*x*y^2+187137.42*x*y^3+129.16*x^2-9697.93*x^2*y+173834.73*x^2*y^2-935832.82*x^2*y^3-174.03*x^3+13191.71*x^3*y-245488.55*x^3*y^2+1384550.57*x^3*y^3

For x ranging from 0.15 to 0.39 I want to develop the value(s) of y.

Any ideas on how to do this would be greatly appreciated.

Thank you.

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Answer 1

Roger Stafford 2014 年 9 月 2 日

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https://jp.mathworks.com/matlabcentral/answers/153122-solving-a-large-equation#answer_150421

編集済み: Roger Stafford 2014 年 9 月 2 日

MATLAB Online で開く

You can use 'roots'. For each value of x you can compute the corresponding value of each of the four coefficients of the powers of y. For example the powers of y^3 can be collected to form a single coefficient which would be:

c3(x) = -12211.07+187137.42*x-935832.82*x^2+1384550.57*x^3

Use a for-loop:

   x = linspace(0.15,0.39,n); % You choose n (= 25?)
   y = zeros(n,3);
   for k = 1:n
     y(k,:) = roots([c3(x(k)),c2(x(k)),c1(x(k)),c0(x(k))]).'; % Get three y roots each trip
   end

This gives you an n x 3 array of the corresponding possible values of y, some of which may be complex-valued, depending on the numbers you are using.

You may wish to reorder the rows in y you obtain this way in order to preserve continuity in the three branches. That would be an extra step.

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Answer 2

MJTHDSN 2018 年 4 月 12 日

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Dear Matlabers,

I have a similar question but a little bit confusing. Let`s assume we have 6 equations as below:

EQ1:a{{(L^2)*(Z^2)+(L^2)*(M^2)-2*L*(Z^2)+(Z^2)}}=(L^2)*(T^2)-2*L*(T^2)+ (T^2)-(2*L*T*B)+(T*B)+(B^2)

EQ2: b{{(L^2)*(Z^2)+(L^2)*(M^2)-2*L*(Z^2)+(Z^2)}}=(L^2)*(T^2)+(2*L*T*B)+(B^2)

EQ3: c{{(L^2)*(Z^2)+(L^2)*(M^2)-2*L*(Z^2)+(Z^2)}}=(T^2)+(2*T*B)+(B^2)

EQ4:d{{(L^2)*(Z^2)+(L^2)*(M^2)-2*L*(Z^2)+(Z^2)}}=(L^2)*(T^2)-2*L*(T^2)+ (T^2)-(2*L*T*B)-(T*B)+(B^2)

EQ5: e{{(L^2)*(Z^2)+(L^2)*(M^2)-2*L*(Z^2)+(Z^2)}}=(L^2)*(T^2)-(2*L*T*B)+(B^2)

EQ6: f{{(L^2)*(Z^2)+(L^2)*(M^2)-2*L*(Z^2)+(Z^2)}}=(T^2)-(2*T*B)+(B^2)

in the equations above a,b,c,d,e and f are the numerical known values (0.543 for example). So we have 6 equations with 5 unknowns as L, Z, M, T and B.

Can you please give me cues how to solve the equations to find these unknowns using MATLAB.

Best Regards,

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Walter Roberson 2020 年 3 月 24 日

If you post your equations, we could try to solve them.

Walter Roberson 2020 年 3 月 25 日

MATLAB Online で開く

syms B L M T Z
Q = @(v) sym(v);
a = sqrt(Q(2)); b = Q(3); c = Q(-5); d = 1/Q(7); e = Q(11); f = sqrt(Q(13));
EQ1 = a*(((L^2)*(Z^2)+(L^2)*(M^2)-2*L*(Z^2)+(Z^2)))==(L^2)*(T^2)-2*L*(T^2)+ (T^2)-(2*L*T*B)+(T*B)+(B^2);
EQ2 = b*(((L^2)*(Z^2)+(L^2)*(M^2)-2*L*(Z^2)+(Z^2)))==(L^2)*(T^2)+(2*L*T*B)+(B^2);
EQ3 = c*(((L^2)*(Z^2)+(L^2)*(M^2)-2*L*(Z^2)+(Z^2)))==(T^2)+(2*T*B)+(B^2);
EQ4 = d*(((L^2)*(Z^2)+(L^2)*(M^2)-2*L*(Z^2)+(Z^2)))==(L^2)*(T^2)-2*L*(T^2)+ (T^2)-(2*L*T*B)-(T*B)+(B^2);
EQ5 = e*(((L^2)*(Z^2)+(L^2)*(M^2)-2*L*(Z^2)+(Z^2)))==(L^2)*(T^2)-(2*L*T*B)+(B^2);
EQ6 = f*(((L^2)*(Z^2)+(L^2)*(M^2)-2*L*(Z^2)+(Z^2)))==(T^2)-(2*T*B)+(B^2);
EQN = [EQ1, EQ2, EQ3, EQ4, EQ5, EQ6];
sol = vpasolve(EQN, [B L M T Z]);
temp = struct2cell(sol);
disp(vertcat(temp{:}));