My question is what is the value i am getting as the output of my code.

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Varun
Varun il 2 Ago 2024
Commentato: Varun il 2 Ago 2024
syms x
eqn = 0.5959 + 0.0321*(x^2.1)-0.184*(x^8)+0.0143*(x^2.5)-0.2359*(sqrt((1-x^4)/x^4));
solve(eqn == 0,x)
the results are given as
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VBBV
VBBV il 2 Ago 2024
Ran in:
@Varun You could alternately use fsolve for the expression and solve it for defined initial value limits. Note that your equation/ function involves a term ((sqrt((1-x.^4)./x.^4))) which can potentially cause the result into a indefinite value. Hence, the initial value need to be more specific to solve this type of equation.
x0 = [0.01 1] % give an initial value excluding 0 !!!
x0 = 1x2
0.0100 1.0000
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eqn = @(x) 0.5959 + 0.0321*(x.^2.1)-0.184*(x.^8)+0.0143*(x.^2.5)-0.2359*(sqrt((1-x.^4)./x.^4));
options = optimoptions('fsolve','Display','iter'); % ^
[x] = fsolve(eqn,x0,options)
Norm of First-order Trust-region Iteration Func-count ||f(x)||^2 step optimality radius 0 3 5.56207e+06 1.11e+09 1 1 6 1.09835e+06 0.00500015 1.47e+08 1 2 9 216815 0.0231918 1.93e+07 1 3 12 42764 0.738655 2.54e+06 1 4 15 8428.05 0.771889 3.35e+05 1 5 18 1651.66 0.194943 4.43e+04 1 6 21 320.676 0.20026 5.87e+03 1 7 24 60.9821 0.257676 783 1 8 25 60.9821 1 783 1 9 28 11.0813 0.25 106 0.25 10 31 1.75585 0.116714 14.9 0.25 11 34 0.205127 0.118429 2.17 0.25 12 37 0.0107402 0.0945807 0.294 0.25 13 40 7.55946e-05 0.0365412 0.0207 0.25 14 43 5.37719e-09 0.00365487 0.000172 0.25 15 46 2.81969e-17 3.13519e-05 1.24e-08 0.25 Equation solved. fsolve completed because the vector of function values is near zero as measured by the value of the function tolerance, and the problem appears regular as measured by the gradient.
x =
0.6015 - 0.0000i -0.0344 - 1.1446i
real(x)
ans = 1x2
0.6015 -0.0344
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Arnav
Arnav il 2 Ago 2024
Hi @Varun,
The result that you are getting is a closed form way of representing the solution of the equation. Here root(P(x),x,k) represents the kth root of the symbolic polynomial P(x). You can evaluate these roots numerically using the function vpa as follows:
syms x
eqn = 0.5959 + 0.0321*(x^2.1)-0.184*(x^8)+0.0143*(x^2.5)-0.2359*(sqrt((1-x^4)/x^4));
res = solve(eqn == 0,x);
numeric_res = vpa(res)
The numeric result obtained is:
0.6015191969401057095577237699673
- 0.60342554599494554515246506424316 - 0.0032524435318404812187506975163144i
- 0.60342554599494554515246506424316 + 0.0032524435318404812187506975163144i
- 0.0022957627114584795743384488144413 - 0.6148033016363615664866637134719i
- 0.0022957627114584795743384488144413 + 0.6148033016363615664866637134719i
- 0.034350766702267990632625142341669 - 1.1446441922416124914568634765747i
- 0.034350766702267990632625142341669 + 1.1446441922416124914568634765747i
0.045439493798166588383693273719136 - 1.14543346751870257491869864044i
0.045439493798166588383693273719136 + 1.14543346751870257491869864044i
- 1.1691779737703086214274911464114 - 0.029488409879496751528279391787196i
- 1.1691779737703086214274911464114 + 0.029488409879496751528279391787196i
1.1752945738347608763208400050921 - 0.037263119738081124633951256034582i
1.1752945738347608763208400050921 + 0.037263119738081124633951256034582i
You can refer to the below example for more information:
https://www.mathworks.com/help/symbolic/sym.root.html#mw_9bfdcac9-2d0b-4cce-a228-0387033ade2a
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Walter Roberson
Walter Roberson il 2 Ago 2024
Ran in:
format long g
syms x
eqn = 0.5959 + 0.0321*(x^2.1)-0.184*(x^8)+0.0143*(x^2.5)-0.2359*(sqrt((1-x^4)/x^4));
F = matlabFunction(eqn)
F = function_handle with value:
@(x)sqrt(-1.0./x.^4.*(x.^4-1.0)).*(-2.359e-1)+x.^(5.0./2.0).*1.43e-2-x.^8.*(2.3e+1./1.25e+2)+x.^(2.1e+1./1.0e+1).*3.21e-2+5.959e-1
numeric_res = fzero(F, [1e-6 1])
numeric_res =
0.601519196940106

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Walter Roberson
Walter Roberson il 2 Ago 2024
You are getting garbage values, for a garbage query.
You have used floating point quantities in a symbolic equation. You have used solve() on the equation. solve() is intended to find indefinitely precise solutions. It makes no sense to ask for indefinitely precise solutions to equations involving floating point values, since floating point values are inherently imprecise.

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