Borrar filtros
Borrar filtros

How to make the for loop the length as the array inside the for loop?

2 visualizaciones (últimos 30 días)
Matthew
Matthew el 10 de Oct. de 2023
Comentada: Star Strider el 10 de Oct. de 2023
I am making a for loop and I want to subtract each element by each other. I was able to do this but my array is now 1x200 and my original array was 1x201. How do I make it so the for loop array is 1x201?
x1 = [1e6:20000:5e6];
L = 4e6; % in m
D_c = 5000;% in m
D1 = [0:25:5000];
x_o = 1e6; % in m
x_2 = [x_o:20000:5e6];
Tw_o = 300; % in K
LR_w = 0.004; % in K/m
LR_c = -0.007; % in K/m
pz_0 = 1000; % in mb
D_1 = D_c.*(sin((pi/L).*(x1-x_o)));
T_c2 = Tw_o-(((LR_w-LR_c).*D_1)-((LR_c.*D1)));
g = 9.81;
Rd = 287;
p1 = pz_0*(((((T_c2)-(LR_c.*D1))./(T_c2))).^((g)/(Rd*LR_c)));
for i = 1:length(p1)-1
deltap(i) = p1(i+1)-p1(i);
end

Iniciar sesión para responder a esta pregunta.

Respuestas (1)

Star Strider
Star Strider el 10 de Oct. de 2023
Ran in:
You do not need the loop at all. Just use the diff function —
x1 = [1e6:20000:5e6];
L = 4e6; % in m
D_c = 5000;% in m
D1 = [0:25:5000];
x_o = 1e6; % in m
x_2 = [x_o:20000:5e6];
Tw_o = 300; % in K
LR_w = 0.004; % in K/m
LR_c = -0.007; % in K/m
pz_0 = 1000; % in mb
D_1 = D_c.*(sin((pi/L).*(x1-x_o)));
T_c2 = Tw_o-(((LR_w-LR_c).*D_1)-((LR_c.*D1)));
g = 9.81;
Rd = 287;
p1 = pz_0*(((((T_c2)-(LR_c.*D1))./(T_c2))).^((g)/(Rd*LR_c)));
deltap = diff(p1)
deltap = 1×200
-2.8534 -2.8634 -2.8734 -2.8835 -2.8935 -2.9036 -2.9136 -2.9237 -2.9337 -2.9437 -2.9536 -2.9635 -2.9733 -2.9831 -2.9927 -3.0023 -3.0118 -3.0212 -3.0305 -3.0396 -3.0486 -3.0574 -3.0661 -3.0746 -3.0830 -3.0911 -3.0990 -3.1068 -3.1143 -3.1215
for i = 1:length(p1)-1
deltap(i) = p1(i+1)-p1(i);
end
deltap
deltap = 1×200
-2.8534 -2.8634 -2.8734 -2.8835 -2.8935 -2.9036 -2.9136 -2.9237 -2.9337 -2.9437 -2.9536 -2.9635 -2.9733 -2.9831 -2.9927 -3.0023 -3.0118 -3.0212 -3.0305 -3.0396 -3.0486 -3.0574 -3.0661 -3.0746 -3.0830 -3.0911 -3.0990 -3.1068 -3.1143 -3.1215
If you want to calculate the numerical derivative at eash point instead, use the gradient function —
deltap = gradient(p1)
deltap = 1×201
-2.8534 -2.8584 -2.8684 -2.8784 -2.8885 -2.8985 -2.9086 -2.9186 -2.9287 -2.9387 -2.9486 -2.9585 -2.9684 -2.9782 -2.9879 -2.9975 -3.0071 -3.0165 -3.0258 -3.0350 -3.0441 -3.0530 -3.0618 -3.0704 -3.0788 -3.0870 -3.0951 -3.1029 -3.1105 -3.1179
.
  2 comentarios
Matthew
Matthew el 10 de Oct. de 2023
Is there a way to get these values positive instead of negative? Thanks.
Star Strider
Star Strider el 10 de Oct. de 2023
One way would be to take the absolute value (the abs function), the other, since they are uniformly negative, would be to multiply them by -1 or just use a unary negative:
deltap = -gradient(p1)
Use whatever works best in your application.
.

Iniciar sesión para comentar.

Categorías

Más información sobre Creating and Concatenating Matrices en Help Center y File Exchange.

Etiquetas

Productos


Versión

R2023b

Community Treasure Hunt

Find the treasures in MATLAB Central and discover how the community can help you!

Start Hunting!

Translated by