One thing for clarification: This code was ran in Matlab 2023a, i have that entered into the question information but it wont change.
Plot Function not displaying all points in data set
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Hello I am trying to plot two arrays of 13x1, one in the x-axis and the other in the y-axis, when I go to plot these, I am only recieving 7 out of the 13 data points. The two 13x1 doubles are velocity35 or velocity60 as the y and plotted against it is radius, in the x. I have attached the code as well as the excel file the data comes from. I really have no idea why im not getting the full dataset, I have tryed messing with the x and y limits of the axis but apart from that Im stumped. If anyone can spot why when you plot make these plots, I am only getting 7 data points instead of the full 13 points that are held within each variable, Id really appreciate you. Thanks!
clc;clear; close all
x = importdata('TFL Lab 1.xlsx');
rho_air = 0.0765; %lb/ft cubed
%draw values from spreadsheet
Height60 = x.data(3:15,4); Dynamic_Pressure60 = x.data(3:15,7) ;
Height35 = x.data(16:28,4); Dynamic_Pressure35 = x.data(16:28,7);
%converting values to radii and velocity
radius = [2.365/2 2.262/2 2.148/2 2.019/2 1.865/2 1.665/2 1.183/2 1.665/2 1.865/2 2.019/2 2.148/2 2.262/2 2.365/2]'
velocity60 = 60 ./ (pi.*radius.^2); %calculating velocity by Q=V*A->V=Q/A
velocity35 = 35 ./ (pi.*radius.^2);
%Plotting Theoretical Curves
U35_laminar = max(velocity35)*(1-(radius/1.25).^2);
U35_turbulent = max(velocity35)*(1-(radius/1.25).^(1/8));
U60_laminar = max(velocity60)*(1-(radius/1.25).^2);
U60_turbulent = max(velocity60)*(1-(radius/1.25).^(1/8));
%low flow rate velocity profile
figure(1)
hold on
plot(radius,velocity35,'r')
plot(radius,U35_laminar,'g')
plot(radius,U35_turbulent,'b')
legend('Observed Velocity','Theoretical Laminar Curve','Theoretical Turbulent Curve')
title('35 GPM Velocity Profile versus Theoretical Curves' )
xlabel("Radius in inches") ; ylabel("Velocity in inches per minute")
hold off
%high flow rate velocity profile
figure(2)
hold on
plot(radius,velocity60,'r')
plot(radius,U60_laminar,'g')
plot(radius,U60_turbulent,'b')
legend('Observed Velocity','Theoretical Laminar Curve','Theoretical Turbulent Curve')
title('60 GPM Velocity Profile' )
xlabel("Radius in inches") ; ylabel("Velocity in inches per minute")
hold off
Respuesta aceptada
Walter Roberson
el 11 de Oct. de 2023
You have duplicate radius values. Also, the radius values are not sorted.
OFF = @(R)R-1;
x.data = readmatrix('TFL Lab 1.xlsx');
rho_air = 0.0765; %lb/ft cubed
%draw values from spreadsheet
Height60 = x.data(OFF(3:15),4); Dynamic_Pressure60 = x.data(OFF(3:15),7) ;
Height35 = x.data(OFF(16:28),4); Dynamic_Pressure35 = x.data(OFF(16:28),7);
%converting values to radii and velocity
radius = [2.365/2 2.262/2 2.148/2 2.019/2 1.865/2 1.665/2 1.183/2 1.665/2 1.865/2 2.019/2 2.148/2 2.262/2 2.365/2]' ;
numel(radius)
numel(unique(radius))
velocity60 = 60 ./ (pi.*radius.^2); %calculating velocity by Q=V*A->V=Q/A
velocity35 = 35 ./ (pi.*radius.^2);
%Plotting Theoretical Curves
U35_laminar = max(velocity35)*(1-(radius/1.25).^2);
U35_turbulent = max(velocity35)*(1-(radius/1.25).^(1/8));
U60_laminar = max(velocity60)*(1-(radius/1.25).^2);
U60_turbulent = max(velocity60)*(1-(radius/1.25).^(1/8));
%low flow rate velocity profile
figure(1)
hold on
plot(radius,velocity35,'r-*')
plot(radius,U35_laminar,'g-*')
plot(radius,U35_turbulent,'b-*')
legend('Observed Velocity','Theoretical Laminar Curve','Theoretical Turbulent Curve')
title('35 GPM Velocity Profile versus Theoretical Curves' )
xlabel("Radius in inches") ; ylabel("Velocity in inches per minute")
hold off
%high flow rate velocity profile
figure(2)
hold on
plot(radius,velocity60,'r-*')
plot(radius,U60_laminar,'g-*')
plot(radius,U60_turbulent,'b-*')
legend('Observed Velocity','Theoretical Laminar Curve','Theoretical Turbulent Curve')
title('60 GPM Velocity Profile' )
xlabel("Radius in inches") ; ylabel("Velocity in inches per minute")
hold off
nnz(~isfinite(velocity35))
nnz(~isfinite(U35_laminar))
nnz(~isfinite(U35_turbulent))
nnz(~isfinite(velocity60))
nnz(~isfinite(U60_laminar))
nnz(~isfinite(U60_turbulent))
2 comentarios
Walter Roberson
el 12 de Oct. de 2023
OFF = @(R)R-1;
x.data = readmatrix('TFL Lab 1.xlsx');
rho_air = 0.0765; %lb/ft cubed
%draw values from spreadsheet
Height60 = x.data(OFF(3:15),4); Dynamic_Pressure60 = x.data(OFF(3:15),7) ;
Height35 = x.data(OFF(16:28),4); Dynamic_Pressure35 = x.data(OFF(16:28),7);
%converting values to radii and velocity
radius_differences = [2.365/2 2.262/2 2.148/2 2.019/2 1.865/2 1.665/2 1.183/2 1.665/2 1.865/2 2.019/2 2.148/2 2.262/2 2.365/2]' ;
radius = cumsum(radius_differences);
numel(radius)
numel(unique(radius))
velocity60 = 60 ./ (pi.*radius.^2); %calculating velocity by Q=V*A->V=Q/A
velocity35 = 35 ./ (pi.*radius.^2);
%Plotting Theoretical Curves
U35_laminar = max(velocity35)*(1-(radius/1.25).^2);
U35_turbulent = max(velocity35)*(1-(radius/1.25).^(1/8));
U60_laminar = max(velocity60)*(1-(radius/1.25).^2);
U60_turbulent = max(velocity60)*(1-(radius/1.25).^(1/8));
%low flow rate velocity profile
figure(1)
hold on
plot(radius,velocity35,'r-*')
plot(radius,U35_laminar,'g-*')
plot(radius,U35_turbulent,'b-*')
legend({'Observed Velocity','Theoretical Laminar Curve','Theoretical Turbulent Curve'}, 'Location', 'best')
title('35 GPM Velocity Profile versus Theoretical Curves' )
xlabel("Radius in inches") ; ylabel("Velocity in inches per minute")
hold off
%high flow rate velocity profile
figure(2)
hold on
plot(radius,velocity60,'r-*')
plot(radius,U60_laminar,'g-*')
plot(radius,U60_turbulent,'b-*')
legend({'Observed Velocity','Theoretical Laminar Curve','Theoretical Turbulent Curve'}, 'Location', 'best');
title('60 GPM Velocity Profile' )
xlabel("Radius in inches") ; ylabel("Velocity in inches per minute")
hold off
nnz(~isfinite(velocity35))
nnz(~isfinite(U35_laminar))
nnz(~isfinite(U35_turbulent))
nnz(~isfinite(velocity60))
nnz(~isfinite(U60_laminar))
nnz(~isfinite(U60_turbulent))
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