On Nov 11, 2:38 pm, [EMAIL PROTECTED] [EMAIL PROTECTED] wrote:
On 11 Lis, 22:21, Robert Samal [EMAIL PROTECTED] wrote:
Hi,
Hi Minh,
I think this issue has been fixed in sage-3.1.4. Under sage-3.1.4, the
command
sage: lim ( x*(sqrt(x^2)-sqrt(x))/sqrt(x^2 -x), x=oo)
+Infinity
I defined a function which show the shaded area between the graphs of
two functions over an interval (maybe such function already exist?).
For example,
plot_shaded_area(sin(x), cos(x), 1,2)
show the shaded area between sine and cosine over [1,2]. Well, my
script doesn't work if I change cos(x)
pong wrote:
I defined a function which show the shaded area between the graphs of
two functions over an interval (maybe such function already exist?).
For example,
plot_shaded_area(sin(x), cos(x), 1,2)
show the shaded area between sine and cosine over [1,2]. Well, my
script doesn't work
On Tue, Nov 11, 2008 at 3:15 AM, cesarnda [EMAIL PROTECTED] wrote:
that is the output I was expecting, but it is not the input I gave.
Obviously,
1/x - 1/(x+1) = 1/(x*(x+1))
but, if the right hand side can be done why the left hand side can't?
This is the bug I was talking about...
It
Thank you very much Stan, this was helpfull
I have more questions,
I get this message:
verbose 0 (3605: plot.py, _plot) WARNING: When plotting, failed to
evaluate function at 200 points.
verbose 0 (3605: plot.py, _plot) Last error message: ''
Why does it fail to evaluate ?
my datasheet:
On Nov 10, 7:15 pm, cesarnda [EMAIL PROTECTED] wrote:
that is the output I was expecting, but it is not the input I gave.
Obviously,
1/x - 1/(x+1) = 1/(x*(x+1))
but, if the right hand side can be done why the left hand side can't?
This is the bug I was talking about...
Thanks for pointing
I change the sequence of dots to size=2 and now the line looks better.
world + sum([point3d(v, color='red') for v in city_coords]) + sum
([point3d(v, size=2, color='green') for v in mydots])
The parametric_plot3d command seems a better way to do this but I am
not sure yet how to use it. I am
Here is my script
def shaded_area_plot(f,g,c,d,a,b):
step = 0.01
vf = [(x,f(x)) for x in srange(a, (b+step), step)]
vg = [(x,g(x)) for x in srange(b, (a-step), -step)]
sha = polygon(vf + vg, rgbcolor='grey')
return(plot(f, (c,d)) + plot(g, (c,d), rgbcolor='red') + sha)
Most
pong wrote:
Here is my script
def shaded_area_plot(f,g,c,d,a,b):
step = 0.01
from sage.ext.fast_eval import fast_float
f = fast_float(f)
g = fast_float(g)
vf = [(x,f(x)) for x in srange(a, (b+step), step)]
vg = [(x,g(x)) for x in srange(b, (a-step), -step)]
sha =
put those three lines in where indicated and it will be orders of
magnitude faster for most cases, plus will handle constants, lambda
functions, etc., automatically.
fast_float is one of Sage's coolest secrets.
That brings up a question I've had for a while. When is it good to
use
If one does
sage: Ii.subs(pars).variables()
(x,)
so that is fine. However,
sage: RR(Ii.subs(pars)(x=-10))
Traceback (most recent call last):
...
TypeError
which tells you what the error is (not very helpful in this case). On
a hunch
sage: CC(Ii.subs(pars)(x=-10))
2.59329101030962e-14*I
so
On Nov 12, 2008, at 5:52 PM, kcrisman wrote:
put those three lines in where indicated and it will be orders of
magnitude faster for most cases, plus will handle constants, lambda
functions, etc., automatically.
fast_float is one of Sage's coolest secrets.
Thanks :)
That brings up a
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