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Powers of Complex Numbers...

Asked by: LemonySnicket6 25
complex expand
9 hours ago
0  6

What is the command to yield the expansion of Z^N in terms of x and y.

Z complex = x+iy,

N integer >1

e.g. Z^2 = x^2 - y^2 + 2.i.x.y

 

Help me with determinant calculation of a matrix...

Asked by: rodeygenuis 5
linear-algebra homework determinant
13 hours ago
1  4

could you just delete the post !!!!!!!!!!!!!!!!!!!!!!!!!!!x!xxxx!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!

solving in maple for to variables divided ...

Asked by: CEFOG 10
solve
15 hours ago
0  4

Is it possible to solve an expression like in the picture below?:
I´ve tried to figure it out at maplesoft.com but I could not find anything that worked...

I´ve also attached the equation as a file. 


 

 

restart

solve(Y = G__B*D1*G__A*G__f/(G__A*G__B*G__M*G__c+G__A*G__B*G__R+1)+G__B*G__A*G__c*Y__sp/(G__A*G__B*G__M*G__c+G__A*G__B*G__R+1)+G__B*D1*G__d/(G__A*G__B*G__M*G__c+G__A*G__B*G__R+1), Y/D1)

Warning, solving for expressions other than names or functions is not recommended.

  

 


 

Download question_regarding_solve_in_maple.mw

which package is better...

Asked by: radaar 117
optimization
18 hours ago
0  5

Can you please explain which optimization package is better from your experience

1 maple

2 matlab

3. mathematica

4. gams studio

5. gurobi

or any other

How do I evaluate this Integral in Maple?...

Asked by: michaelvio 20
integration heunb
18 hours ago
0  1

Int1 := int(exp(-z*(R^2*k^2 - b^2*z)/(R*b))/(z*HeunB(0, k^2*R^2/(b*sqrt(R*b)), R^3*k^4/(4*b^3), 0, -sqrt(R*b)*z/R)^2), z = R .. r);

into cylindrical coords with z axis simetry and radius r;

where R, k, b are constants >0;

And HeunB is Maple funtion

I apreciate the exact calculus but maybe an aproximation is ok but or a plot.

Please advise! 
         

plot points and vectors ...

Asked by: Zeineb 135
vector plotting
22 hours ago
0  6

Dear all

If we travel in straight lines in R^3. We begin at the point A=(1, 2, 3)
in the direction of the vector (1, 2, 2) and we end at the final point (10, 11, 12).

We made a single 90-degree turn.

Can we sketch a figure and we show the position where we take the turn?

 

Thanks

solve linear system of dimension n...

Asked by: Zeineb 135
linear-algebra basis
Yesterday at 1:14 PM
0  6

Dear all

I hope to solve a linear system AX=bk where A is a nxn matrix and X is a nx1 vector and b is a vector from the canonical basis of R^n ( for example in R^3 : b1=[ 1 0 0], b2 =[ 0 1 0] and b3=[ 0 0 1]

 

 

GramMat.mw

Thanks

Can Maple compute two-dimensional Fourier transfor...

Asked by: Jjjones98 30
integration inverse contour
Yesterday at 1:04 PM
0  0

I am reading a paper which has some useful two-dimensional Fourier transforms in the appendix: for example,

Fourier transform of 1/r = (1/k)*e^(-kz),

where r = sqrt(x^2 + y^2 + z^2) and k =  sqrt(k_1^2 + k_2^2).

My guess is that the author has computed these by taking contour integrals in the upper half-plane and I would like to compute some of these myself but I have many of them to compute and was wondering if it could be done with Maple instead.

For example, could I use Maple to verify that the above 2D Fourier transform is correct and that the inverse 2D Fourier transform takes you back to the original (or almost takes you back).  After that I would then like to feed in the functions which I have to get Fourer and inverse Fourier transforms.

Triangulation, hatching and texturing of simple...

by: mmcdara 872 Maple
triangulation plotting polygon
Yesterday at 12:20 PM
1

Hi, 

As an amusement,  I decided several months ago to develop some procedures to fill a simple polygon* by hatches or simple textures.

* A simple polygon is a polygon  whose sides either do not intersect or either have a common vertex.

This work started with the very simple observation that if I was capable to hatch or texture a triangle, I will be too to hatch or texture any simple polygon once triangulated.
I also did some work to extend this work to non-simple polygons but there remains some issues to fix (which explains while it is not deliverd here).

The main ideat I used for hatching and texturing is based upon the description of each triangles by a set of 3 inequalities that any interior point must verify.
A hatch of this triangle is thius a segment whose each point is interior.
The closely related idea is used for texturing. Given a simple polygon, periodically replicated to form the texture, the set of points of each replicate that are interior to a given triangle must verify a set of inequalities (the 3 that describe the triangle, plus N if the pattern of the texture is a simple polygon with N sides).

Unfortunately I never finalise this work.
Recently @Christian Wolinski asked a question about texturing that reminded me this "ancient" work of mine.
So I decided to post it as it is, programatically imperfect, lengthy to run, and most of all french-written for a large part.
I guess it is a quite unorthodox way to proceed but some here could be interested by this work to take it back and improve it.

The module named "trianguler" (= triangulate) is a translation into Maple of Frederic Legrand's Python code (full reference given in the worksheet).
I added my own procedure "hachurer" (= hatching) to this module.
The texturing part is not included in this module for it was still in development.

A lot of improvements can be done that I could list, but I prefer not to be too intrusive in your evaluation of this work. So make your own idea about it and do not hesitate to ask me any informations you might need (in particular translation questions).


PS: this work has been done with Maple 2015.2
 

restart:


Reference: http://www.f-legrand.fr/scidoc/docmml/graphie/geometrie/polygone/polygone.html
                    (in french)
                    reference herein : M. de Berg, O. Cheong, M. van Kreveld, M. Overmars,  
                                                 Computational geometry,  (Springer, 2010)

Direct translation of the Frederic Legrand's Python code


Meaning of the different french terms

voisin_sommet  (n, i, di)
        let L the list [1, ..., n] where n is the number of vertices
        This procedure returns the index of the neighbour (voisin) of the vertex (sommet) i when L is rotated by di

equation_droite  (P0, P1, M)
        Let P0 and P1 two vertices and M an arbitrary point.
        Let (P0, P1) the vector originated at P0 and ending at P1 (idem for (P0, M)) and u__Z the unitary vector in the Z direction.
        This procedure returns (P0, P1) o (P0, M) . u__Z

point_dans_triangle  (triangle, M) P1, P2]
        This procedure returns "true" if point M is within (strictly) the  triangle "triangle" and "false" if not.

sommet_distance_maximale  (polygone, P0, P1, P2, indices)    
        Given a polygon (polygone) threes vertices P0, P1 and P2 and a list of indices , this procedure returns
        the vertex of the polygon "polygone" which verifies: 1/ this vertex is strictly within
        the triangle [P0, P1, P2] and 2/ it is the farthest from side [P1, P2] amid all the vertices that verifies point 1/.
        If there is no such vertex the procedure returns NULL.

sommet_gauche (polygone)
        This procedure returns the index of the leftmost ("gauche" means "left") vertex in polygon "polygone".
        If more than one vertices have the same minimum abscissa value then only the first one is returned.

nouveau_polygone(polygone,i_debut,i_fin)
        This procedure creates a new polygon from index i_debut (could be translated by i_first) to i_end (i_last)

trianguler_polygone_recursif(polygone)
        This procedure recursively divides a polygon in two parts A and B from its leftmost vertex.
         If A (B) is a triangle the list "liste_triangles" (mening "list of triangles") is augmented by A (B);
         if not the procedure executes recursively on A and B.

trianguler_polygone(polygone)
         This procedure triangulates the polygon "polygon"

hachurer(shapes, hatch_angle, hatch_number, hatch_color)
         This procedure generates stes of hatches of different angles, colors and numbers


Limitations:
   1/ "polygone" is a simply connected polygon
   2/  two different sides S and S', either do not intersect or either have a common vertex

trianguler := module()
export voisin_sommet, equation_droite, interieur_forme, point_dans_triangle, sommet_distance_maximale,
       sommet_gauche, nouveau_polygone, trianguler_polygone_recursif, trianguler_polygone, hachurer:

#-------------------------------------------------------------------
voisin_sommet := (n, i, di) -> ListTools:-Rotate([$1..n], di)[i]:



#-------------------------------------------------------------------
equation_droite := proc(P0, P1, M) (P1[1]-P0[1])*(M[2]-P0[2]) - (P1[2]-P0[2])*(M[1]-P0[1]) end proc:


#-------------------------------------------------------------------
interieur_forme := proc(forme, M)
  local N:
  N := numelems(forme);
  { seq( equation_droite(forme[n], forme[piecewise(n=N, 1, n+1)], M) >= 0, n=1..N) }
end proc:


#-------------------------------------------------------------------
point_dans_triangle := proc(triangle, M)
  `and`(
          is( equation_droite(triangle[1], triangle[2], M) > 0 ),
          is( equation_droite(triangle[2], triangle[3], M) > 0 ),
          is( equation_droite(triangle[3], triangle[1], M) > 0 )
       )
end proc:



#-------------------------------------------------------------------
sommet_distance_maximale := proc(polygone, P0, P1, P2, indices)
  local n, distance, j, i, M, d;

  n        := numelems(polygone):
  distance := 0:
  j        := NULL:

  for i from 1 to n do
    if `not`(member(i, indices)) then
      M := polygone[i];
      if point_dans_triangle([P0, P1, P2], M) then
        d := abs(equation_droite(P1, P2, M)):
        if d > distance then
          distance := d:
          j := i
        end if:
      end if:
    end if:
  end do:
  return j:
end proc:


#-------------------------------------------------------------------
sommet_gauche := polygone -> sort(polygone, key=(x->x[1]), output=permutation)[1]:



#-------------------------------------------------------------------
nouveau_polygone := proc(polygone, i_debut, i_fin)
  local n, p, i:

  n := numelems(polygone):
  p := NULL:
  i := i_debut:

  while i <> i_fin do
    p := p, polygone[i]:
    i := voisin_sommet(n, i, 1)
  end do:
  p := [p, polygone[i_fin]]
end proc:



#-------------------------------------------------------------------
trianguler_polygone_recursif := proc(polygone)
  local n, j0, j1, j2, P0, P1, P2, j, polygone_1, polygone_2:
  global liste_triangles:
  n  := numelems(polygone):
  j0 := sommet_gauche(polygone):
  j1 := voisin_sommet(n, j0, +1):
  j2 := voisin_sommet(n, j0, -1):
  P0 := polygone[j0]:
  P1 := polygone[j1]:
  P2 := polygone[j2]:
  j  := sommet_distance_maximale(polygone, P0, P1, P2, [j0, j1, j2]):

  if `not`(j::posint) then
    liste_triangles := liste_triangles, [P0, P1, P2]:
    polygone_1      := nouveau_polygone(polygone,j1,j2):
    if numelems(polygone_1) = 3 then
      liste_triangles := liste_triangles, polygone_1:
    else
      thisproc(polygone_1)
    end if:

  else
    polygone_1 := nouveau_polygone(polygone, j0, j ):
    polygone_2 := nouveau_polygone(polygone, j , j0):
    if numelems(polygone_1) = 3 then
      liste_triangles := liste_triangles, polygone_1:
    else
      thisproc(polygone_1)
    end if:
    if numelems(polygone_2) = 3 then
      liste_triangles := liste_triangles, polygone_2:
    else
      thisproc(polygone_2)
    end if:
  end if:

  return [liste_triangles]:
end proc:


#-------------------------------------------------------------------
trianguler_polygone := proc(polygone)
  trianguler_polygone_recursif(polygone):
  return liste_triangles:
end proc:


#-------------------------------------------------------------------
hachurer := proc(shapes, hatch_angle::list, hatch_number::list, hatch_color::list)

local A, La, Lp;
local N, P, _sides, L_sides, Xshape, ch, rel, p_rel, n, sol, p_range:
local AllHatches, window, p, _segment:
local NT, ka, N_Hatches, p_range_t, nt, shape, p_hatches, WhatHatches:

#-----------------------------------------------------------------
# internal functions:
#
# La(x, y, alpha, p) is the implicit equation of a straight line of angle alpha relatively
#                    to the horizontal axis and intercept p
#
# Lp(x, y, P) is the implicit equation of a straight line passing through points P[1] and P[2]
#
# interieur_triangle(triangle, M)

La := (x, y, alpha, p) -> cos(alpha)*x - sin(alpha)*y + p;
Lp := proc(x, y, P::list) (x-P[1][1])*(P[2][2]-P[1][2]) - (y-P[1][2])*(P[2][1]-P[1][1] = 0) end proc;


p_range    := [+infinity, -infinity]:
NT         := numelems(shapes):

AllHatches := NULL:

for ka from 1 to numelems(hatch_angle) do
  A         := hatch_angle[ka]:
  N_Hatches := hatch_number[ka]:
  p_range_t := NULL:
  _sides    := []:
  L_sides   := []:
  rel       := []:
  for nt from 1 to NT do

    shape := shapes[nt]:
    # _sides  : two points description of the sides of the shape
    # L_sides : implicit equations of the straight lines that support the sides

    N        := [1, 2, 3];
    P        := [2, 3, 1];
    _sides   := [ _sides[] , [ seq([shape[n], shape[P[n]]], n in N) ] ];
    L_sides  := [ L_sides[], Lp~(x, y, _sides[-1]) ];

    # Inequalities that define the interior of the shape

    rel := [ rel[], trianguler:-interieur_forme(shape, [x, y]) ];
  
    # Given the orientation of the hatches we search here the extreme values of
    # the intercept p for wich a straight line of equation La(x, y, alpha, p)
    # cuts the shape.
    
    p_rel := NULL:
    
    for n from 1 to numelems(L_sides[-1]) do
      sol   := solve({La(x, y, A, q), lhs(L_sides[-1][n])} union rel[-1], [x, y]);
      p_rel := p_rel, `if`(sol <> [], [rhs(op(1, %)), rhs(op(3, %))], [+infinity, -infinity]);
    end do:
    p_range_t := p_range_t, evalf(min(op~(1, [p_rel]))..max(op~(2, [p_rel])));
    p_range   := evalf(min(op~(1, [p_rel]), op(1, p_range))..max(op~(2, [p_rel]), op(2, p_range)));

  end do: # end of the loop over triangles

  p_range_t := [p_range_t]:
  p_hatches := [seq(p_range, (op(2, p_range)-op(1, p_range))/N_Hatches)]:
  # Building of the hatches
  #
  # This construction is far from being optimal.
  # Here again the main goal was to obtain the hatches with a minimum effort
  # if algorithmic development.

  window      := min(op~(1..shape))..max(op~(1..shape)):
  WhatHatches := map(v -> map(u -> if verify(u, v, 'interval'('closed') ) then u end if, p_hatches), p_range_t):

  for nt from 1 to NT do
    for p in WhatHatches[nt] do
      _segment := []:
      for n from 1 to numelems(L_sides[nt]) do
         _segment := _segment, evalf( solve({La(x, y, A, p), lhs(L_sides[nt][n])} union rel[nt], [x, y]) );
      end do;
      map(u -> u[], [_segment]);
      AllHatches := AllHatches, plot(map(u -> rhs~(u), %), color=hatch_color[ka]):
    end do:
  end do;

end do: # end of loop over hatch angles

plots:-display(
  PLOT(POLYGONS(polygone, COLOR(RGB, 1$3))),
  AllHatches,
  scaling=constrained
)

end proc:

end module:

 

Legrand's example (see reference above)

 

 

global liste_triangles:
liste_triangles := NULL:

polygone := [[0,0],[0.5,-1],[1.5,-0.2],[2,-0.5],[2,0],[1.5,1],[0.3,0],[0.5,1]]:

trianguler:-trianguler_polygone(polygone):

PLOT(seq(POLYGONS(u, COLOR(RGB, rand()/10^12, rand()/10^12, rand()/10^12)), u in liste_triangles), VIEW(0..2, -2..2))

 

trianguler:-hachurer([liste_triangles], [-Pi/4, Pi/4], [40, 40], [red, blue])
 

 

F := (P, a, b) -> map(p -> [p[1]+a, p[2]+b], P):

MOTIF  := [[0, 0], [0.05, 0], [0.05, 0.05], [0, 0.05]];
motifs := [ seq(seq(F(MOTIF, 0+i*0.075, 0+j*0.075), i=0..26), j=-14..13) ]:

plots:-display(
  plot([polygone[], polygone[1]], color=red, filled),
  map(u -> plot([u[], u[1]], color=blue, filled, scaling=constrained), motifs)
):

texture    := NULL:
rel_motifs := map(u -> trianguler:-interieur_forme(u, [x, y]), motifs):
  
for ref in liste_triangles do
  ref;
  #
  # the three lines below are used to define REF counter clockwise
  #
  g           := trianguler:-sommet_gauche(ref):
  bas         := sort(op~(2, ref), output=permutation);
  REF         := ref[[g, op(map(u -> if u<>g then u end if, bas))]];
  rel_ref     := trianguler:-interieur_forme(REF, [x, y]): #print(ref, REF, rel_ref);
  texture_ref := map(u -> plots:-inequal(rel_ref union u, x=0..2, y=-1..1, color=blue, 'nolines'), rel_motifs):
  texture     := texture, texture_ref:
end do:

plots:-display(
  plot([polygone[], polygone[1]], color=red, scaling=constrained),
  texture
)

[[0, 0], [0.5e-1, 0], [0.5e-1, 0.5e-1], [0, 0.5e-1]]

  

 

MOTIF  := [[0, 0], [0.05, 0], [0.05, 0.05], [0, 0.05]];
motifs := [ seq(seq(F(MOTIF, piecewise(j::odd, 0.05, 0.1)+i*0.1, 0+j*0.05), i=-0.2..20), j=-20..20) ]:
plots:-display(
  plot([polygone[], polygone[1]], color=red, filled),
  map(u -> plot([u[], u[1]], color=blue, filled, scaling=constrained), motifs)
):

texture    := NULL:
rel_motifs := map(u -> trianguler:-interieur_forme(u, [x, y]), motifs):
  
for ref in liste_triangles do
  ref;
  g := trianguler:-sommet_gauche(ref):
  bas := sort(op~(2, ref), output=permutation);
  REF := ref[[g, op(map(u -> if u<>g then u end if, bas))]];
  rel_ref     := trianguler:-interieur_forme(REF, [x, y]): #print(ref, REF, rel_ref);
  texture_ref := map(u -> plots:-inequal(rel_ref union u, x=0..2, y=-1..1, color=blue, 'nolines'), rel_motifs):
  texture     := texture, texture_ref:
end do:

plots:-display(
  plot([polygone[], polygone[1]], color=red, scaling=constrained),
  texture
)

[[0, 0], [0.5e-1, 0], [0.5e-1, 0.5e-1], [0, 0.5e-1]]

  

 

MOTIF  := [[0, 0], [0.4, 0], [0.4, 0.14], [0, 0.14]]:
motifs := [ seq(seq(F(MOTIF, piecewise(j::odd, 0.4, 0.2)+i*0.4, 0+j*0.14), i=-1..4), j=-8..7) ]:


plots:-display(
  plot([polygone[], polygone[1]], color=red, filled),
  map(u -> plot([u[], u[1]], color=blue, filled, scaling=constrained), motifs)
):

palettes := ColorTools:-PaletteNames():
ColorTools:-GetPalette("HTML"):

couleurs := [SandyBrown, PeachPuff, Peru, Linen, Bisque, Burlywood, Tan, AntiqueWhite,      NavajoWhite, BlanchedAlmond, PapayaWhip, Moccasin, Wheat]:

nc   := numelems(couleurs):
roll := rand(1..nc):

motifs_nb      := numelems(motifs):
motifs_couleur := [ seq(cat("HTML ", couleurs[roll()]), n=1..motifs_nb) ]:

texture    := NULL:
rel_motifs := map(u -> trianguler:-interieur_forme(u, [x, y]), motifs):
  
for ref in liste_triangles do
  ref;
  g := trianguler:-sommet_gauche(ref):
  bas := sort(op~(2, ref), output=permutation);
  REF := ref[[g, op(map(u -> if u<>g then u end if, bas))]];
  rel_ref     := trianguler:-interieur_forme(REF, [x, y]): #print(ref, REF, rel_ref);
  texture_ref := map(n -> plots:-inequal(rel_ref union rel_motifs[n], x=0..2, y=-1..1, color=motifs_couleur[n], 'nolines'), [$1..motifs_nb]):
  texture     := texture, texture_ref:
end do:

plots:-display(
  plot([polygone[], polygone[1]], color=red, scaling=constrained),
  texture
)

 

MOTIF  := [ seq(0.1*~[cos(Pi/6+Pi/3*i), sin(Pi/6+Pi/3*i)], i=0..5) ]:
motifs := [ seq(seq(F(MOTIF, i*0.2*cos(Pi/6)+piecewise(j::odd, 0, 0.08), j*0.3*sin(Pi/6)), i=0..12), j=-6..6) ]:


plots:-display(
  plot([polygone[], polygone[1]], color=red, filled),
  map(u -> plot([u[], u[1]], color=blue, filled, scaling=constrained), motifs)
):


motifs_nb      := numelems(motifs):
motifs_couleur := [ seq(`if`(n::even, yellow, brown) , n=1..motifs_nb) ]:

texture    := NULL:
rel_motifs := map(u -> trianguler:-interieur_forme(u, [x, y]), motifs):
  
for ref in liste_triangles do
  ref;
  g := trianguler:-sommet_gauche(ref):
  bas := sort(op~(2, ref), output=permutation);
  REF := ref[[g, op(map(u -> if u<>g then u end if, bas))]];
  rel_ref     := trianguler:-interieur_forme(REF, [x, y]): #print(ref, REF, rel_ref);
  texture_ref := map(n -> plots:-inequal(rel_ref union rel_motifs[n], x=0..2, y=-1..1, color=motifs_couleur[n], 'nolines'), [$1..motifs_nb]):
  texture     := texture, texture_ref:
end do:

plots:-display(
  plot([polygone[], polygone[1]], color=red, scaling=constrained),
  texture
)

 

 


 

Download Triangulation_Hatching_Texturing.mw

How do I split an equation and save the right hand...

Asked by: peitsa 15
solve equation eval
Yesterday at 10:19 AM
1  3

This may be a total newbie question, but is there a way to split an equation and save the right hand side? For example, have a look on what happens without split:

numer(L = 2/3);
"Error, invalid input: numer expects its 1st argument, x, to be of type {list, set, algebraic}, but received L = 2/3"

I thought that "convert"-function might be able to do this, but for example this does not work:

convert(L = 2/3, algebraic)

"Error, invalid input: `convert/algebraic` expects its 1st argument, pr, to be of type procedure, but received L = 2/3"

Please understand that this is a simplified example. The real problem looks like

sol := solve({eq1, eq2,eq3, res}, {L, x1, x2, x3})

The point here is how to convert the sol[1], which is L = numerator/denumerator into --> numerator/denumerator

Taking a copy of the equation works, but this is only an intermediate result, so if the split does not work automatically, Maple cannot compute the problem to the end without human intervention, and since this problem takes a long time to solve, it would be nice if I could just leave Maple to finish the task by itself.

How would I compute the series expansion of cos(x)...

Asked by: JTB2222 10
series
Yesterday at 8:15 AM
2  7

How would I compute the series expansion of cos(x)^n at the point x=0?

Trying to icombine; is too...

Asked by: vv 6476
combine icombine
Yesterday at 7:25 AM
1  1

combine(2^n*4, icombine);

2^(2+n)

 (1)

combine(2^n*4);

4*2^n

 (2)

combine(2^n/4, icombine); # BUG

Error, (in compat) invalid input: igcd received undefined, which is not valid for its 2nd argument

  

combine(2^n/4);

(1/4)*2^n

 (3)

combine(2^n/2^m, icombine); # BUG

Error, (in compat) invalid input: igcd received undefined, which is not valid for its 2nd argument

  

combine(2^n*2^(-m), icombine);

2^(n-m)

 (4)

combine(2^n/2^m);

2^(n-m)

 (5)

is(2^n/4 = 2^(n-2)); # ???

false

 (6)

 


Download bug-icombine-is.mw

Command-line Maple doesn't evaluate certain functi...

Asked by: droberts01 10
groebner ore_algebra spolynomial
Yesterday at 5:56 AM
2  2

Hi everyone, I'm having issues using Maple through the command line (I have reasons to be avoiding the GUI, namely I am trying to use Maple in a development environment that integrates other programs, e.g. Mathematica into the mix. This forces me to only be able to access Maple via the command line).

 

Here is my issue: for some functions, like diff(), which differentiates functions, Maple evaluates the function on the input:

 

> f:=x+2;                                                
                    f := x + 2

> g := diff(f, x);                                 
                      g := 1

 

For other functions though, such as SPolynomial() (from the Ore_algebra library), command-line Maple is lazy and just spits back the input:

> with(Ore_algebra) 

> A:=diff_algebra([D1, x1], [D2, x2]);     
A := diff_algebra([D1, x1], [D2, x2])

> T:=MonomialOrder(A, grlex(D1, D2));              
T := MonomialOrder(diff_algebra([D1, x1], [D2, x2]), grlex(D1, D2))

> L1:=D1;                                          
                     L1 := D1

> L2:=D2;                                          
                     L2 := D2

> L:=SPolynomial(L1, L2, T);                       
L := SPolynomial(D1, D2, MonomialOrder(diff_algebra([D1, x1], [D2, x2]), grlex(D1, D2)))

 

Let me know if you get the same error as well! The correct output (outputted by the worksheet version of Maple) should be:

 

L := 0

 

How to change tickmarks in sparsematrixplot?...

Asked by: sand15 560
tickmarks plotting sparsematrixplot
Yesterday at 4:35 AM
1  4

Hi,

Let's take the last example (Maple 2019) given in help[sparsematrixplot] (representation of the adjacency matrix of a graph).
Vertices of this graph are labelled 1, 2, ...20.
Suppose I change these names as a, b, ...t.
I would like the tickmarks of the sparsematrixplot output match the names of the vertices of the graph, and not the integers 1, 2, ..20

I tried this:
S := [$1..20] =~ StringTools:-Char~(96 +~  [$1..20]);
plots:-sparsematrixplot(..., tickmarks=[S, S])

But the only the tickmars of the columns are changed, not those of the rows.

Is it possible to change the names of the tickmarks ?


Thanks in advance.

step by step solutions...

Asked by: Jayaprakash J 20
step-by-step dsolve differential-equations
December 09 2019
1  1

How  to get step by step solutions in dsolve? 

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