I am having error using ode45 with Inputs must be floats, namely single or double

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rastors23 il 17 Nov 2021

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https://it.mathworks.com/matlabcentral/answers/1588714-i-am-having-error-using-ode45-with-inputs-must-be-floats-namely-single-or-double

Modificato: Walter Roberson il 27 Nov 2021

Hello scholar, I have a code am running and I keep getting this error after several try. what might be the error in my code? Below is the error shown and few lines where the error might have occured. Kindly help

Error using odearguments (line 113)

Inputs must be floats, namely single or double.

Error in ode45 (line 115)

odearguments(FcnHandlesUsed, solver_name, ode, tspan, y0, options, varargin);

omegap_r = @(r)omegap.*(1-(k_om.*r./a));  
eps = @(r)@(omega) eps_inf - (omegap_r(r).^2./(omega.^2+(1i*omega.*gamma)));
opts = odeset('RelTol',1e-5,'AbsTol',1e-8);
[r,eps_bar] = ode45(@(r,eps_bar)@(omega) (eps(r).(omega)-eps_bar).*(eps_bar+2.*eps(r).(omega))./(r.*eps(r).(omega)),tspan,1,opts);
e_a = eps_bar(end)./eps_bar;
epsilon_e = @(omega) eps2+((3*eps2*f(y)).*((e_a(1)-eps2)./(e_a(1)+2*eps2)));

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Walter Roberson il 17 Nov 2021

Apri in MATLAB Online

Please show

whos a eps_inf gamma k_om omega omegap tspan

with tspan being most important for this purpose.

rastors23 il 17 Nov 2021

Modificato: rastors23 il 17 Nov 2021

Sorry for the delay in reply, I went off lab before.

a = 1;

tspan = [0.001,a];

f = linspace(0.01,0.1,5);

y = 1:length(f)

omegap = 2.7E14;

eps2 = 1.77;

eps_inf = 1;

gamma = 1E12;

k_om = 0;

omegap_r = @(r)omegap.*(1-(k_om.*r./a));

eps = @(r)@(omega) eps_inf - (omegap_r(r).^2./(omega.^2+(1i*omega.*gamma)));

opts = odeset('RelTol',1e-5,'AbsTol',1e-8);

[r,eps_bar] = ode45(@(r,eps_bar)@(omega) (eps(r).(omega)-eps_bar).*(eps_bar+2.*eps(r).(omega))./(r.*eps(r).(omega)),tspan,1,opts);

e_a = eps_bar(end)./eps_bar;

epsilon_e = @(omega) eps2+((3*eps2*f(y)).*((e_a(1)-eps2)./(e_a(1)+2*eps2)));

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Answer 1

Steven Lord il 17 Nov 2021

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https://it.mathworks.com/matlabcentral/answers/1588714-i-am-having-error-using-ode45-with-inputs-must-be-floats-namely-single-or-double#answer_833604

Apri in MATLAB Online

[r,eps_bar] = ode45(@(r,eps_bar)@(omega) (eps(r).(omega)-eps_bar).*(eps_bar+2.*eps(r).(omega))./(r.*eps(r).(omega)),tspan,1,opts);

The function handle you're passing into ode45 as its first input does not return a numeric value, it instead returns a function handle. This does not satisfy the requirements ode45 imposes on that function, namely that it return a numeric vector.

If you show us the mathematical form of the differential equations you're trying to solve we may be able to offer suggestions for how to modify your ode45 call's first input.

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Steven Lord il 17 Nov 2021

The equation you posted doesn't include omega at all. How does the program "call for omega"?

rastors23 il 27 Nov 2021

Modificato: Walter Roberson il 27 Nov 2021

Apri in MATLAB Online

clc;
clear all;
close all;
h_bar = 1.054560652E-34/1.6E-19;
k_b = 1.3806488E-23/1.6E-19;
syms omega
d = 10E-9;
a = 1;
tspan = [0.001,a];
f = linspace(0.01,0.1,5);
parfor y = 1:length(f)
    T_H = 450;            %T1 
    T_L = 300;            %T2
    Theta_omega_T_L = @(omega,kp) (h_bar*omega/2).*coth((h_bar*omega)/(2*k_b*T_L));
    Theta_omega_T_H = @(omega,kp) (h_bar*omega/2).*coth((h_bar*omega)/(2*k_b*T_H));
    THETA = @(omega,kp) Theta_omega_T_H(omega,kp) - Theta_omega_T_L(omega,kp);
    %..................Effective..............................%
    omegap = 2.7E14;
    eps2 = 1.77;
    eps_inf = 1;       
    gamma = 1E12; 
    k_om = 0.1;
    omegap_r = @(r)omegap.*(1-(k_om.*r./a));  
    eps = @(r) eps_inf - (omegap_r(r).^2./(omega.^2+(1i*omega.*gamma)));
    opts = odeset('RelTol',1.e-5,'AbsTol',1.e-8);
    [r,eps_bar] = ode45(@(r,eps_bar) (eps(r)-eps_bar).*(eps_bar+2.*eps(r))./(r.*eps(r)),tspan,1,opts);
    e_a = eps_bar(end);
    epsilon_e = @(omega) eps2+((3*eps2*f(y)).*((e_a(1)-eps2)./(e_a(1)+2*eps2)));
    kz = @(omega,kp) sqrt((omega/c).^2-kp.^2);
    k_1 = @(omega,kp) sqrt(epsilon_e(omega).*(omega/c).^2-kp.^2);                        
    r_1pp = @(omega,kp)(epsilon_e(omega).*kz(omega,kp)-k_1(omega,kp))./(epsilon_e(omega).*kz(omega,kp)+k_1(omega,kp));
    r_1ss = @(omega,kp)(kz(omega,kp)-k_1(omega,kp))./(kz(omega,kp)+k_1(omega,kp));
    xi_1 = @(omega,kp)((1 - abs(r_1ss(omega,kp)))^2);
    Xi_1 = @(omega,kp) xi_1(omega,kp).*kp.*THETA(omega,kp);
    ymin = @(omega) omega/3e8;
    XI_1 = integral2(Xi_1,1E13,1E15,1E-5,ymin,'RelTol',1E-3)
end