tomleslie

On the LHS of your expression...

Answered: tomleslie 13876

August 10 2020

0 1

Try changing the symbol you enter for multiplication from '*' to '.' as in the attached. Pretty much impossible to spot this discrepancy if you persist in using 2D math input. Akthough it is glaringly obvious if you use 1D-input

>

Matrix(%id = 18446744074374753326) = Matrix(%id = 18446744074374746710)

(1)

>

Download matMUl.mw

Basically no -but...

Answered: tomleslie 13876

August 09 2020

2 0

It is generally possible to substitute values returned by the dsolve(..., numeric) process into the original ODE to get a measure of the solution error. See the 'toy' exampl;e in the attached where the same ODE is solved with four different accuracy settings, and the solution error is plotted

>

  restart;
  deq1:= (t+1)^2*diff(y(t),t,t) + (t+1)*diff(y(t),t)
         + ((t+1)^2-0.25)*y(t) = 0;
  ic1:= y(0) = 0.6713967071418030,
        D(y)(0) = 0.09540051444747446:
#
# Solve the ode above whilst varying the accuracy setting
#
  sols := [seq( dsolve({deq1, dummy(t)=diff(y(t),t,t), ic1}, numeric, abserr=10^j), j=-3..-6,-1)];

(t+1)^2*(diff(diff(y(t), t), t))+(t+1)*(diff(y(t), t))+((t+1)^2-.25)*y(t) = 0

(1)

>

#
# Plot the value of the left hand side of the above
# ode using values for 't', 'y(t)', 'diff(y(t),t)',
# and 'diff(y(t),t, t)' using values obtained from
# the numeric solution process.
#
# If the numeric solution process was *perfect* then
# the answer should *always* be zero. Note that the
# discrepancy (ie the error) reduces rapidly, as the
# requested accuracy in the dsolve() command above is
# tightened
#
  deqTest:=subs( diff(y(t),t,t)=dummy(t), deq1):
  plot( [ 'lhs(eval(deqTest, sols[1](t)))',
          'lhs(eval(deqTest, sols[2](t)))',
          'lhs(eval(deqTest, sols[3](t)))',
          'lhs(eval(deqTest, sols[4](t)))'
        ],
        t=0..1, axes=boxed
      );

>

Download odeAcc.mw

Is a numerical solution acceptable?...

Answered: tomleslie 13876

August 09 2020

0 0

If it is - see the attached

>

restart:

>	c10:=-26/9:c01:=-9.330480048:c11:=-199/33:c02:=-7.162134941:c12:=-93/11:c03:=-.756797589:d10:=11/9:d01:=26/9:d11:=19/3:d02:=25/3:d12:=8:d03:=1:

>	A1 := c03y^3+c12xy^2+c02y^2+c11xy+c01y+c10x: B1:=d03y^3+d12xy^2+d02y^2+d11xy+d01y+d10x:

>	aa1:=diff(arctan(v/u),u):bb1:=diff(arctan(v/u),v):

>	A11:= subs({x = -u, y = (v+c10u/sqrt(w))sqrt(w)/c01}, -A1): B11:= subs({x = -u, y = (v+c10u/sqrt(w))sqrt(w)/c01}, B1):

>	w :=-c01d10+c10d01:

>	f11 := subs({x = -u, y = (v+c10u/sqrt(w))sqrt(w)/c01}, -A1): collect(%, v): f2 := subs({x = -u, y = (v+c10u/sqrt(w))sqrt(w)/c01}, B1): collect(%, v): g := simplify(-c10f11/sqrt(w)+c01f2/sqrt(w)): collect(%, v):

>	f111:=collect(1/sqrt(w)f11,v): f222:=collect(1/sqrt(w)g,v):

>	F1:=uf111+vf222: F11:=subs({u=rcos(theta),v=rsin(theta)},F1): F11:=F11/r:F2:=aa1f111+bb1f222: F22:=subs({u=rcos(theta),v=rsin(theta)},F2):

>	M:=F11/F22: M:=taylor(M,r,6): r1:=coeff(M,r,1): simplify(%): subs(c10=-d01,r1): simplify(%):

>	c10:=-d01: R2:=coeff(M,r,2): R3:=coeff(M,r,3): R4:=coeff(M,r,4): R5:=coeff(M,r,5):

>

#R2,R3,R4,R5 have been given,I try to solve the following ode equation: The initial value:r2(0)=r3(0)=r4(0)=r5#(0);system={diff(r2(theta),theta)=R2;diff(r3(theta),theta)=2*R2*U2+R3;diff(r4(theta),theta)=R2*(U2^2+2*U3)+3*R3*U2+R4;diff(r5(theta),theta)=2*R2*(U2*U3+U4)+3*R3*(U2^2+U3)+4*R4*U2+R5}.I want to get the exact solution of subs(theta=2*Pi,U5),But it just gives the form include _Z1,_Z_2,_Z3.How can I get exact value?

>	#U2:=rhs(dsolve({diff(r2(theta),theta)=R2,r2(0)=0})):

>	#U3:=rhs(dsolve({diff(r3(theta),theta)=2R2U2+R3,r3(0)=0})):

>	#U4:=rhs(dsolve({diff(r4(theta),theta)=R2(U2^2+2U3)+3R3U2+R4,r4(0)=0})):

>	#U5:=rhs(dsolve({diff(r5(theta),theta)=2R2(U2U3+U4)+3R3(U2^2+U3)+4R4*U2+R5,r5(0)=0})):

>	#U6:=subs(theta=2*Pi,U5):save U6, output5:

>

#
# Numerical solution
#
  odesys:= diff(r2(theta),theta)=R2,
           diff(r3(theta),theta)=2*R2*r2(theta)+R3,
           diff(r4(theta),theta)=R2*(r2(theta)^2+2*r3(theta))+3*R3*r2(theta)+R4,
           diff(r5(theta),theta)=2*R2*(r2(theta)*r3(theta)+r4(theta))+3*R3*(r2(theta)^2+r3(theta))+4*R4*r2(theta)+R5:
  ics:= r2(0)=0,
        r3(0)=0,
        r4(0)=0,
        r5(0)=0:
  sol:=dsolve( [odesys, ics], numeric):
#
# Plot all dependent variables
#
  plots:-odeplot( sol,
                  [ [theta, r2(theta)],
                    [theta, r3(theta)],
                    [theta, r4(theta)],
                    [theta, r5(theta)]
                  ],
                  theta=0..2*Pi,
                  color = [ red, green, blue, cyan],
                  legend = [ typeset(r2(theta)),
                             typeset(r3(theta)),
                             typeset(r4(theta)),
                             typeset(r5(theta))
                           ],
                  legendstyle = [ font=[times, bold, 16],
                                  location=right
                                ]
              );
#
# Return solution values at specific points
#
  sol(Pi);
  sol(2*Pi);

(1)

>

Download odeNum.mw

Read the error messages...

Answered: tomleslie 13876

August 08 2020

0 1

and fix the errrors - as in the attached

Download odeProb.mw

Hmmm...

Answered: tomleslie 13876

August 06 2020

1 3

well I replied to this before - so did someone else - can't remember who

My reply basically pointed out that which the standard 'map()' command will work even when the list over which one is mapping a function contains only one element.

However the 'Grid:-Map()' apparently requires the list over which one is mapping a function must contain (at least) two elements.

Compare the two execution groups in the attached

Download mapMap.mw

It appears as if...

Answered: tomleslie 13876

August 06 2020

0 0

map() will work correctly even if there is only one element in the list over which to 'map'

However Grid:-Map() requires at least two elements in the list over which to "map".

See the attached

Download mapMap.mw

More of an observation really...

Answered: tomleslie 13876

August 02 2020

0 4

According to the code yuo are minimzing the function

add( (`C__f`[i]-rhs(res(times[1])[3]))^2, i=1..numelems(times))

Now the list 'times' has 20 entries, so numelems(times) is 20, and thus only the first 20 entries of the list 'C__f' will be used. These entries are

[1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 2, 2, 2, 2, 2, 2, 2, 2, 3, 8]

So for i=1..10, in the function to be minimized the term C__f[i] is always 1, for i=11..18, C__f[i] is always 2, and so on

Furthermore, the quantity rhs(res(times[1])[3]) is constant for every value of 'i'. Since times[1] is 5, this expression will always return the numerical value of C(5). Hence the function you are minimising is actually

10*(1-C(5))+8*(2-C(5))+(3-C(5))+(8-C(5))

Of course you are free to minimise any function you want - but this one just looks a bit weird! Are you sure you didn't mean

add( (`C__f`[i]-rhs(res(times[i])[3]))^2, i=1..numelems(times))

where times[1] is replaced with times[i]

Another way...

Answered: tomleslie 13876

August 02 2020

1 0

is to use the Row() and/or Collumn() commands from the LinearAlgebra package, both of which return a sequence of vectors (which may - or may not- be a useful) for your purposes as a sequnce of lists).

If you really want the final objects to be lists, then the afore-mentioned sequence is simple to convert - see the attached

Download rowToList.mw

Doesn't vary much...

Answered: tomleslie 13876

July 31 2020

0 0

see the attached.

In fact I added an execution group just to determine the numeric differences between Bk[beta=0] and Bk[beta=5], just to check thay they were in fact different - because you can't really tell from the graphs

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q[3] := beta/C[T]^2

(21)

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epsilon[1] := delta^2*T[0]*t[1]/(k*rho)

(22)

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(24)

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(25)

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R[H] := 1+epsilon[0]*((4*3.1416)*10^(-7))^2*H0^2/rho

(29)

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(30)

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(31)

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colors := [red, green, blue, cyan, orange, black]; plots:-display([seq(plot(convert(X, list), convert(Bk[j, () .. ()], list), color = colors[j+1]), j = 0 .. 5)])

>

convert(`~`[`-`](Bk[5, () .. ()], Bk[0, () .. ()]), list)

(32)

>

Download betaPlots.mw

Observations...

Answered: tomleslie 13876

July 30 2020

0 0

Things you can try

Open the file "created in 2006" in Maple 18 - then save it wih a "new" name
Open this new file in later versions of Maple
If that doesn't work then upload the original file here (using the big green up-arrow in the Mapleprimes toolbar) and let someone (like me) go throught he update process for you

In 2006 Maple was (probably?) stilll using the '.mws' file format rather than the newer '.mw' format, so this may be part of the issue, although as far as I'm aware, modern Maple versions translate/parse/read the old .mws format without any real issue.

Seems self-explanatory...

Answered: tomleslie 13876

July 30 2020

0 2

Your ODE ssytem requires ten boundary conditions in order to obtain a solution, and you are only supplying eight.

If you still do not understand this, then I suggest you upload your worksheet using the big green up-arrow in the Mapleprimes toolbar

Wrong argument order...

Answered: tomleslie 13876

July 30 2020

1 0

There is a mismatch between the argument order which the procedure 'CR' expects and that which is provided when CR() is called.

Obviously you can either change the argument order in the procedure call, or the argument order in the definition of the procedure itself. All if have to do is make then 'match', Quite arbitraliy, I changed the order in the procedure definition.

I have made to attempt to determine whether the "Update" process is actually providing the correct numerical updates you want/require, you will need to verify this yourself!

But at least the attached "runs"

restart:
#
# Changed argument order in definition of CR
#
CR:= proc(W::record(mu,sigma), L::record(mu,sigma), Wid, Lid, P::integer, Q::integer)
          local postW:= Record(':-mu'= W:-mu+10, ':-sigma'= W:-sigma-5),
                postL:= Record(':-mu'= L:-mu-9, ':-sigma'= L:-sigma-4),
                postDW:= Record(':-mu'= W:-mu+7, ':-sigma'= W:-sigma-5),
                postDL:= Record(':-mu'= L:-mu+6,':-sigma'= L:-sigma-4) ;
          if   P-Q <> 0
          then userinfo
              ( 1, CR,
                sprintf
                ( "Winner[%a] = %d +- %d; Change=%d; Loser[%a] = %d +- %d; Change=%d",
                   Wid, round~([postW:-mu, postW:-sigma, postW:-mu - W:-mu])[],
                   Lid, round~([postL:-mu, postL:-sigma, postL:-mu - L:-mu])[] #CHANGE IN MEAN
                )
              ),
              postW, postL
          else userinfo
               ( 1, CR,
                 sprintf
                 ( "Winner[%a] = %d +- %d; Change=%d; Loser[%a] = %d +- %d; Change=%d",
                   Wid, round~([postDW:-mu, postDW:-sigma, postDW:-mu - W:-mu])[],
                   Lid, round~([postDL:-mu, postDL:-sigma, postDL:-mu - L:-mu])[] #CHANGE IN MEAN
                 )
               );
               postDW, postDL
          end if;
     end proc:

Update:= proc( Standings::table,
               Games::list({ [{name,string}, {name,string}, integer, integer],
                             [{name,string}, {name,string}]
                           }
                         ),
             #   Games,
               {inplace::truefalse:= true}
             )
             local R:= `if`(inplace, Standings, copy(Standings)),
                   G;
             for G in Games do
                 if   assigned(R[G[1]]) and assigned(R[G[2]])
                 then (R[G[1]], R[G[2]]):= CR(R[G[1]], R[G[2]], G[1], G[2], G[3..][])
                 else error "Player %1 or %2 not found in Standings", G[]
                 end if
             end do;
             `if`(inplace, [][], R)
         end proc:

#Example usage

Standings:= table( [ SAU = Record(mu = 1591, sigma = 100),
                     RUS = Record(mu = 1678, sigma = 100),
                     POR = Record(mu = 1970, sigma = 100),
                     SPA = Record(mu = 2044, sigma = 100)
                   ]
                 );

(1)

#Account of wins\losses (in each pair, the first member defeats the second.

Games:= [[RUS,SAU,3,0],[POR,SPA,3,3]]:

#nops(Games);
with(Statistics):
with(ListTools):
#sort(Tally(Flatten(Games)),(a,b)->is(rhs(a)>rhs(b)));
st := time():
infolevel[CR]:= 1:

NewStandings:= Update(Standings, Games, inplace= false):
<op(eval(NewStandings))>:
SortedNewStandings:=<sort(op(eval(NewStandings)), key= (r-> -eval(rhs(r)):-mu))>;
Processing_time=time()-st;

CR: Winner[RUS] = 1688 +- 95; Change=10; Loser[SAU] = 1582 +- 96; Change=-9

CR: Winner[POR] = 1977 +- 95; Change=7; Loser[SPA] = 2050 +- 96; Change=6

Vector(4, {(1) = SPA = `Record(mu = 2050, sigma = 96)`, (2) = POR = `Record(mu = 1977, sigma = 95)`, (3) = RUS = `Record(mu = 1688, sigma = 95)`, (4) = SAU = `Record(mu = 1582, sigma = 96)`})

(2)

#Calculate change in means:
for P in map(lhs,SortedNewStandings) do
printf("%a: %d +- %d, change %+d\n", P, round(NewStandings[P]:-mu),round(NewStandings[P]:-sigma),round(NewStandings[P]:-mu - Standings[P]:-mu))

end do:

SPA: 2050 +- 96, change +6
POR: 1977 +- 95, change +7
RUS: 1688 +- 95, change +10
SAU: 1582 +- 96, change -9

Download stands.mw

Cannot reproduce...

Answered: tomleslie 13876

July 29 2020

0 2

Although the obtained answer is a piecewise function - see the attached

Can't tell from the version info you present,whether you are using Maple 2020, or 2019 or whatever - can you clarify

Also I'm using \Windows.

Download odeProb.mw

Numerous issues...

Answered: tomleslie 13876

July 29 2020

1 2

which I have to guess how to fix - nbut my guesswork only goes so far!

Consider the issues which I have highlighted in the attached - in which your double-loop executes without error, although I suspect that the terms in the resulting list contain variable names which you didn't expect!

For some reason, this worksheet won't display inline here - not sure why

badSum.mw

No solutions!...

Answered: tomleslie 13876

July 29 2020

2 1

IT seems as if your equation has no solutions in the ranges of k and omega which you supply. It is possible to obtain solutions outside this range. See the attached

>	restart; R:=k=-1000..2000: Eq3:=omega^2-(1.34877760610^25+7.46042613710^20k^2+1.75824175810^11k^2(3.81449059410^14+2.41327300210^6k^2))/(7.54165310610^14+1.75824175810^11k^2)=0; #plots:-implicitplot(Eq3, R, omega=-200..2000,gridrefine=4);

omega^2-(0.1348777606e26+0.7460426137e21*k^2+0.1758241758e12*k^2*(0.3814490594e15+2413273.002*k^2))/(0.7541653106e15+0.1758241758e12*k^2) = 0

(1)

>	# # Check if it is possible to determine explicit solutions # ans:=solve(Eq3);

${k = k, omega = 0.1240347346e-1*((67624683.*k^2+0.2900635810e12)*(0.1060779341e19*k^4+0.1676717813e27*k^2+0.3371944015e26))^(1/2)/(67624683.*k^2+0.2900635810e12)}, {k = k, omega = -0.1240347346e-1*((67624683.*k^2+0.2900635810e12)*(0.1060779341e19*k^4+0.1676717813e27*k^2+0.3371944015e26))^(1/2)/(67624683.*k^2+0.2900635810e12)}$

(2)

>	# # Plot both of the above solutions # plot( [rhs(ans[1][2]), rhs(ans[2][2])], k=-1000..2000);

>	# # Check the values of these solutions at k=0 # eval(ans, k=0);

(3)

>	# # implicitplot() over the range of 'omega' for which solutions # appear to exist only finds the 'upper' curve - not sure # why # plots:-implicitplot(Eq3, k=-1000..2000, omega=-2e-07..2e07,gridrefine=4);

>

Download doPlot.mw

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These are answers submitted by tomleslie

On the LHS of your expression...

Basically no -but...

Is a numerical solution acceptable?...

Read the error messages...

Hmmm...

It appears as if...

More of an observation really...

Another way...

Doesn't vary much...

Observations...

Seems self-explanatory...

Wrong argument order...

Cannot reproduce...

Numerous issues...

No solutions!...

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