Anyone knows why this keeps running forever
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function TWOSTGRQ2
clc
clear variables
%%Variables
g0 = 9.81; % Gravity
m01 = 120000;% Lift-off mass
n = 15; % Mass Ratio
Isp1 = 320; Isp2 =350; % Specific Impulse (s)
c1 = Isp1*g0; c2 = Isp2*g0;%
T2W1 = 1.4; T2W2 = 1.5; % Thrust to weight ratio
p0 = 1.225; % Sea level density of atmosphere (kg/m^3)
CD = 0.5; % Drag Coefficient (assumed constant)
h0 = 7.5*10^3; % Density scale height (m)
hTower = 110; % Tower Height (m)
Y_ini = 89.85*pi/180; % Flight Path before gravity turn maneuovre
RE = 6378000;
p0 = 1.225;
D = 5; %Rocket Diameter
A = pi*(D/2)^2; %Rocket Cross Sectional Area
%%Calculated Parameters
mf1 = m01/n; m02 = mf1; % Mass of rocket after engine burn stage 1- m02
mf2 = m02/n; % Mass of rocket after engine burn stage 1 - m02
T1 = T2W1*m01*g0; T2 = T2W2*m02*g0; % Thrust
rme1 = T1/c1; rme2 = T2/c2;% Rate at which exhaust mass flows accross the nozzle exit plane
mp1 =m01-mf1; mp2 = m02-mf2; % Propellant mass
tburn1 = mp1/rme1; tburn2 = mp2/rme2; % Burnout times
t0 = 0; tf = tburn1+tburn2;
%%Differential Equations - ode45 - actual- 2b
init_params = [0 Y_ini 0 0 0 0];
options = odeset('RelTol', 1e-4);
[t,x] = ode45(@(t,x) rocket_analysis_actual(t,x,T1,T2,m01,m02,rme1,rme2,mp1,mp2,g0,RE,Y_ini,h0,CD,p0,A), [t0 tf],init_params,options);
%%Vectorization for outputs - Actual
v = x(:,1);
Y = x(:,2);
h = x(:,3);
x = x(:,4);
VelLostDrag = x(:,5);
VelLostGravity = x(:,6);
Y_a_deg = radtodeg(Y);
%%Dynamic Pressure & Karman Line
density = p0*exp(-(h)./h0);
dynamicpressure = 0.5*density.*v.^2;
j=100000; escapevel = 11200; timek = 167; % J is karman line height
[dynamicpressuremax, Index_maxdynamicpressure] = max(double(dynamicpressure));
HeightMaxPos = h(Index_maxdynamicpressure);
fprintf("Max Dynamic Pressure is: %g\nHeight at Max Dynamic Pressure is: %g",dynamicpressuremax, HeightMaxPos);
%
%%Plots 2b and 2c
figure(1); plot(t,v,'r-'); hold on
escape = line([t0 timek],[escapevel escapevel]); tl = line([timek timek],[0 escapevel]);
tl.Color = 'green'; escape.Color = 'magenta';
xlabel('Time (s)'); ylabel('Velocity (m/s)');
title('Graph showing Velocity against Time (Actual)')
legend('Velocity','Escape Velocity')
figure(2); plot(t,Y_a_deg,'m-')
xlabel ('Time (s)'); ylabel('Flight Path Angle (degrees)')
title('Graph showing Flight Path Angle against Time (Actual)')
figure(3); plot(t,h,'b-'); hold on
karman = line([t0 tburn],[j,j]); karman.Color = 'red';
legend('Altitude','Karman Line');
xlabel('Time (s)'); ylabel('Altitude (m)')
title('Graph showing Altitude against Time (Actual)')
figure(4); plot(t,x,'g-')
xlabel('Time (s)'); ylabel('Horizontal Travel (m)')
title('Graph showing Horizontal Travel against Time (Approximate)')
figure(5); plot(t,VelLostDrag,'b-')
xlabel('Time (s)'); ylabel('Velocity Lost Due to Drag (m/s)')
title('Graph showing Velocity Lost to due Drag against Time (Cumulative)')
figure(6); plot(t,VelLostGravity,'g-')
xlabel('Time (s)'); ylabel('Velocity Lost due to Gravity (m/s)')
title('Graph showing Velocity Lost due to Gravity against Time (Cumalitive)')
figure(7); plot(t,dynamicpressure,'r-'); hold on
dynpress = line([0 tburn],[dynamicpressuremax dynamicpressuremax]); dynpress.Color = 'green';
xlabel('Time (s)'); ylabel('Dynamic Pressure')
figure(8); plot(h,dynamicpressure,'r-'); hold on
dynpressalt = line([0 HeightMaxPos],[dynamicpressuremax dynamicpressuremax]); dynpressalt.Color = 'green';
dynpressaltvert = line([HeightMaxPos HeightMaxPos],[0 dynamicpressuremax]); dynpressaltvert.Color = 'green';
xlabel('Height (m)'); ylabel('Dynamic Pressure')
end
%%Rocket Analysis Function Before Tower Cleared
function f_dot = rocket_analysis_actual(t,x,T1,T2,m01,m02,rme1,rme2,mp1,mp2,g0,RE,Y_ini,h0,CD,p0,A)
tburn1 = mp1/rme1; tburn2 = mp2/rme2; % Burnout times
tf = tburn1+tburn2;
while t<=tburn1
m0 = m01;
T = T1;
rme = rme1;
end
while t>tburn1 && t<=tf
m0 = m02;
T = T2;
rme = rme2;
end
hTower = 110; % Tower Height (m)
gc = g0/(1+(x(3)/RE))^2; % Gravity change with altitude
m = m0-rme.*t;
p = p0*exp(-x(3)./h0); % Density change with height
q = 0.5*p.*x(1).^2;% Dynamic Pressure as it changes with density
drag = q*A*CD; % Drag
f_dot = [0 0 0 0 0 0]';
if x(3) < hTower
f_dot(1) = (T-drag-(m*gc*sin(Y_ini)))/m; % Acceleration in vertical
f_dot(2) = 0; % Flight Path angle with time - zero before tower cleared
f_dot(3) = x(1)*sin(Y_ini); % Altitude change with time
f_dot(4) = (RE/(RE+x(3)))*(x(1)*cos(Y_ini)); % Change in horizontal
f_dot(5) = drag/m; % Velocity Lost due to drag
f_dot(6) = gc*sin(Y_ini); % Velocity lost due to gravity
else
f_dot(1) = (T-drag-m*gc*sin(x(2)))/m; % Acceleration in vertical
f_dot(2) = (-1/x(1))*(gc-(((x(1))^2)/(RE+x(3))))*cos(x(2)); % Flight Path angle with time - zero before tower cleared
f_dot(3) = x(1)*sin(x(2)); % Altitude change with time
f_dot(4) = (RE/(RE+x(3)))*(x(1)*cos(x(2))); % Change in horizontal
f_dot(5) = drag/m;
f_dot(6) = gc*sin(x(2));
end
end
12 commentaires
Réponses (1)
Abraham Boayue
le 9 Avr 2018
It would be much better to use a single for loop to implement this function. The two while loops and the if statement do not seem to be working together as they should.
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