I don't get the correct output from my function

2 visualizaciones (últimos 30 días)
Thomas Hammer
Thomas Hammer el 19 de Feb. de 2020
Comentada: Steven Lord el 19 de Feb. de 2020
Hello community. I've struggled for a bit now with this.
I don't understand how I can get elementwise multiplication and addition to work here. The graph is not what it should look like when I run this program. I've tested with other software, such as Geogebra. Other than that, when I change the range from -5 to -10, the graph shifts with it.
I just don't see how to fix this problem. I would love help on this. Thanks.
values = -5:0.1:5;
f = @(x)(exp(1-2.*x).*(x+cos(2.*x)));
plot(values, f(values))
  5 comentarios
Adam Danz
Adam Danz el 19 de Feb. de 2020
Editada: Adam Danz el 19 de Feb. de 2020
"I don't understand how I can get elementwise multiplication and addition to work here."
What's not working with your current code? The only addition I see is (x+cos(2.*x)) which is doing element-wise addition.
"The graph is not what it should look like"
What should it look like?
"when I change the range from -5 to -10, the graph shifts with it"
Do you mean -5 to +10? If the x values are changed, the range of data should shift horizontally according to the new x values.
Thomas Hammer
Thomas Hammer el 19 de Feb. de 2020
Editada: Thomas Hammer el 19 de Feb. de 2020
Thanks for the reply Adam. When plotting the values I would suppose that the function gives the same different outputs (y values), for the same inputs (x values). It doesn't seem like it's doing that. https://imgur.com/a/ZWAbEPa Here's an imgur of what I expect vs what I'm getting.
(I completely missed the fact that it said x 10^5 on the top!)

Iniciar sesión para comentar.

Respuesta aceptada

Turlough Hughes
Turlough Hughes el 19 de Feb. de 2020
Editada: Turlough Hughes el 19 de Feb. de 2020
The function is correct. However, because this function outputs very large numbers depending on your range (in terms of absolute value), you end up with missing the details that you appear to be looking for.
Try the following:
f = @(x) exp(1-2*x).*(x+cos(2*x))
fplot(f,[-5 15])
ylim([-2 4])
  2 comentarios
Thomas Hammer
Thomas Hammer el 19 de Feb. de 2020
Ah! Thank you! I didn't know about this. I thought it would map the corresponding outputs to the screen, but I guess since the output has extremely low y values, I completely miss out on the detail. Thank you for understanding me, I'm still learning this application and how to use it.
Steven Lord
Steven Lord el 19 de Feb. de 2020
Note the limits of the axes in the geogebra diagram: the lower X limit is -1.5 or -2, not -5 or -15. If you do what Turlough Hughes did but use [-1.5 6] as the limits instead of [-5 15] it looks pretty similar to the geogebra diagram. If I tweak it a little more the resemblance is even stronger.
Let's enable the major and minor grids:
grid on
grid minor
make the axes rulers cross at the origin:
ax = gca;
ax.XAxisLocation = 'origin';
ax.YAxisLocation = 'origin';
and have the tick locations match:
xticks(-1.5:0.5:6)
yticks(-1.5:0.5:3)
Adjust the size of the figure window with the mouse (dragging the sides or one of the lower corners) to the same size as the picture on imgur and they agree pretty well.

Iniciar sesión para comentar.

Más respuestas (1)

M
M el 19 de Feb. de 2020
When you change from -5 to -10, the absissa of the plots change, yes. But the value of the function does not change. What makes you think there is an issue here ?
  1 comentario
Thomas Hammer
Thomas Hammer el 19 de Feb. de 2020
This is what I mean. There is an error with my program.
The function I want to plot is (e^(1-2x))*(x+cos(2x)).

Iniciar sesión para comentar.

Productos


Versión

R2019b

Community Treasure Hunt

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

Start Hunting!

Translated by