Undefined function 'mtimes' for input arguments of type 'matlab.ui.control.NumericEditField' error

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SITI AISHAH el 26 de Jul. de 2019

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https://es.mathworks.com/matlabcentral/answers/473548-undefined-function-mtimes-for-input-arguments-of-type-matlab-ui-control-numericeditfield-error

Comentada: Kunwar Pal Singh el 25 de Oct. de 2020

oil_SAE = app.oil_type.Value;

Temp_in = app.Inlet_Temperature.Value;

d = app.Shaft_diameter.Value;

r = app.Shaft_radius.Value;

D = app.Bushing_diameter.Value;

N = app.Shaft_speed;

W = app.Radial_load.Value;

L = app.Bearing_length.Value;

c = (D-d)/2;

C_ratio = r/c;

P = W/(2*r*L);

Slenderness = L/d;

Sommerfeld_No_Inf = xlsread ('MFT','Temperature Rise Variable','A4:A17');

Temp_rise_inf = xlsread ('MFT','Temperature Rise Variable','E4:E17');

Temperature = xlsread ('MFT','viscosity-temperature chart','A4:A30');

if oil_SAE == 10

y = xlsread ('MFT','viscosity-temperature chart','B4:B30');

elseif oil_SAE == 20

y = xlsread ('MFT','viscosity-temperature chart','C4:C30');

elseif oil_SAE == 30

y = xlsread ('MFT','viscosity-temperature chart','D4:D30');

elseif oil_SAE == 40

y = xlsread ('MFT','viscosity-temperature chart','E4:E30');

elseif oil_SAE == 50

y = xlsread ('MFT','viscosity-temperature chart','F4:F30');

elseif oil_SAE == 60

y = xlsread ('MFT','viscosity-temperature chart','G4:G30');

elseif oil_SAE == 70

y = xlsread ('MFT','viscosity-temperature chart','H4:H30');

end

%-------------------------------------------------------------------------%

% Calculation to find average temperature and viscosity %

Tf = Temp_in + 3;

app.V.Value = interp1 (Temperature,y,Tf);

app.S.Value = (C_ratio)^2*((app.V*N)/P); error: Undefined function 'mtimes' for input arguments of type 'matlab.ui.control.NumericEditField'.

if Slenderness == 1

app.delta_T.Value = (0.349109 + (6.00940*app.S)+(0.047467*(app.S^2)))*(P*(10^-6))/0.120; % Temperature Rise(°C) at l/d=1

elseif Slenderness == 1/2

app.delta_T.Value = (0.394552 + (6.392527*app.S)-(0.036013*(app.S^2)))*(P*(10^-6))/0.120; % Temperature Rise(°C) at l/d=1/2

elseif Slenderness == 1/4

app.delta_T.Value = 0.933828 + (6.437512*app.S)- (0.011048*(app.S^2))*(P*(10^-6))/0.120; % Temperature Rise(°C) at l/d=1/4

else

app.delta_T.Value = (interp1 (Sommerfeld_No_Inf,Temp_rise_inf,app.S))*(P*(10^-6))/0.120; % Temperature Rise(°C) at l/d=Infinity

end

app.T_average.Value = Temp_in + (app.delta_T.Value/2);

** I got the error while running the app designer. These codes were written in callback function. Can somebody help me on how to fix this error?

2 comentarios
Mostrar NingunoOcultar Ninguno

Jan el 26 de Jul. de 2019

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Please use the buttons on top of the field for editing the message to format the code as code to improve the readability. Thanks.

By the way, you mix the code for the GUI handling and the computations. This will impede the maintenance of the code. If you separate the GUI part and the actual computations, it will be much easier to modify the GUI or the calculations, or use the function for the calculations in another code. Example:

% Inside the GUI code:
[V, S, Delta, T_avg] = YourCalculations(Temperature, C_ratio, y, Tf, ...
    N, P, Slenderness)
app.V.Value = V;
app.S.Value = S;
... and so on
% And the calculations:
function [V, S, Delta, T_avg] = YourCalculations(Temperature, C_ratio, y, Tf, ...
    N, P, Slenderness)
V  = interp1(Temperature,y,Tf);   
S  = (C_ratio)^2 * V * N ) / P);
if Slenderness      == 1
   delta_T = (0.349109 + (6.00940*S)+(0.047467*(S^2)))*(P*1e-6)/0.120; 
   
   ... and so on
end
end