I would show you what I have but I actually don't know where to start this problem..

If n people (numbered 1 to n) stand in a circle and someone starts going around the circle and eliminating every other person till only one person is left, the number J(n) of the person left at the end is given by 

    J(n) = 1                           if n = 1
    J(n) = 2*J(n/2) - 1          if n > 1 and n is even
    J(n) = 2*J((n-1)/2) + 1   if  n > 1 and n is odd

(i) Write a recursive procedure to compute J. [As a check the first 16 values (starting with 1) of J(n) are 1,1,3,1,3,5,7,1,3,5,7,9,11,13,15,1]. 
(ii)Compute the value of J(10000). 
(iii) Can you explain why this is so much faster than our recursive procedure to compute the n-th Fibonacci number?

Why this error message ?
with(geometry);
vartheta := (2*Pi)/17;
x || k := cos(k*theta);
y || k := sin(k*theta);
 xk := cos(k theta): yk := sin(k theta)
.M||k:=(point,x||k,y||k);
 with(plots):
Points := pointplot([seq(M || k, k = 1 .. 16)], symbol = solidcircle, color = red, symbolsize = 10):
Error, (in plots:-pointplot) cannot convert data to an Array of datatype float[8]; Thank you for your answer..

Hello, I have a question.

The exercise consists of defining the image in relation to a chosen base. For example, I choose {x^4,x^3*y,x^2*y^2,x*y^3,y^4} as a base. Then I want to calculate T(x^4), T(x^3*y),T(x^2*y^2),T(x*y^3),T(y^4) through maple but but maple won't calculate it.

Do you know what I'm doing wrong?
Thanks in advance

 I came across this question while trying to verify the equality of expressions containing elliptic integrals.

Download EllpticK(1).mw

I have no experience with elliptic integrals. Can I assume in this case that infinity is correct?

Download simulasi_I(t)_kurang_dari_1.mw

I am using the Calculus Study Guide and the mathematical notation is half Maple notation and then half typeset notation. I have tried to tweak with Tools>Options>Display settings but it stays the same

For example:

{a[n]}[n = n[0]]^infinity;, where 
                             "a[n]"

 is the general term for the sequence, and 
                             "n[0]"

 is the starting index.
The notation is often shortened to {a[n]}; to save printing costs.

...and the math notation past the word "where" is in typeset notation but changed to Maple Notation when I cut and pasted.

Thank You in advance.

I'd like to plot the graph in polar coordinates of the function r=f(t)=2/cos(t), which should be a vertical line parallel to the y-axis. I've tried it with two different commands, and below you can see the results

plot(2/cos(theta), coords = polar)

What is going on here?

I then tried using polarplot from the plots package.

with(plots):

polarplot(2/cos(t), t = 0 .. 2*Pi)

Shouldn't the graph be a vertical line at 2?

Notice that if I plot two similar plots

polarplot([1/cos(t), 2/cos(t)], t = 0 .. 2*Pi)

The same result is obtained

What is going on here? 

I need to sort a list of vectors, so that the vectors which have a norm of 1 come first (the order of remaining vectors is irrelevant). What would be an efficient way to do that?

When The subgraph is too many, the label will hide automatically. Such as:

DrawSubgroupLattice(SmallGroup(200, 31), labels = ids)

But the labels is important to me. I can accept a more larger graph and more smaller text in labels. Is it possible?

How to plot  the intersection of Zc and Zs?

Download plot-15.mw

Generators(SmallGroup(60, 10))

Wii get this result:

But I hope to copy this junk information into my clipboard.

But my clipboard just get such information:

[module() ... end module,module() ... end module,module() ... end module,module() ... end module]

Or I copy it as Latex format, I will get those extra \left、\right:

\left[\left(1,4,5\right)\left(2,9,10\right)\left(3,13,14\right)\left(6,17,19\right)\left(7,18,20\right)\left(8,23,24\right)
\\
\left(11,27,29\right)\left(12,28,30\right)\left(15,33,35\right)\left(16,34,36\right)\left(21,39,41\right)
\\
\left(22,40,42\right)\left(25,43,45\right)\left(26,44,46\right)\left(31,49,51\right)\left(32,50,52\right)
\\
\left(37,53,55\right)\left(38,54,56\right)\left(47,57,59\right)\left(48,58,60\right),
\\
\left(1,6,21,22,7\right)\left(2,11,31,32,12\right)\left(3,15,37,38,16\right)
\\
\left(4,17,39,40,18\right)\left(5,19,41,42,20\right)\left(8,25,47,48,26\right)
\\
\left(9,27,49,50,28\right)\left(10,29,51,52,30\right)\left(13,33,53,54,34\right)
\\
\left(14,35,55,56,36\right)\left(23,43,57,58,44\right)\left(24,45,59,60,46\right),
\\
\left(1,2\right)\left(3,8\right)\left(4,9\right)\left(5,10\right)\left(6,12\right)\left(7,11\right)\left(13,23\right)\left(14,24\right)
\\
\left(15,26\right)\left(16,25\right)\left(17,28\right)\left(18,27\right)\left(19,30\right)\left(20,29\right)\left(21,32\right)
\\
\left(22,31\right)\left(33,44\right)\left(34,43\right)\left(35,46\right)\left(36,45\right)\left(37,48\right)\left(38,47\right)
\\
\left(39,50\right)\left(40,49\right)\left(41,52\right)\left(42,51\right)\left(53,58\right)\left(54,57\right)\left(55,60\right)
\\
\left(56,59\right),
\\
\left(1,3\right)\left(2,8\right)\left(4,13\right)\left(5,14\right)\left(6,15\right)\left(7,16\right)\left(9,23\right)\left(10,24\right)
\\
\left(11,25\right)\left(12,26\right)\left(17,33\right)\left(18,34\right)\left(19,35\right)\left(20,36\right)\left(21,37\right)
\\
\left(22,38\right)\left(27,43\right)\left(28,44\right)\left(29,45\right)\left(30,46\right)\left(31,47\right)\left(32,48\right)
\\
\left(39,53\right)\left(40,54\right)\left(41,55\right)\left(42,56\right)\left(49,57\right)\left(50,58\right)\left(51,59\right)
\\
\left(52,60\right)\mathrm{
\\}\right]

But I just want to copy the output what I have seen

I want to calculate the double integral of the following expression which includes sum of several Legendre polynomial terms, but the speed is so low. Any suggestion to speed up the calculation?

Download Soal.mw

Hello there, 

Would you allow me to ask this question?

Is there any way to apply 'collect' command using a term by multiplication of variables?

The following worksheet shows an example. What I wanted to see is the 'desired' expression, while multiple attempts with 'collect' command failed. 

Download Q20220602.mw

I would like to compute the Fourier transform of a impulse train for applications in signal processing.  I expect to get an impulse train as a result, but do not:

restart;
delta__t:=t->sum(Dirac(t-k*T__0),k=-infinity..infinity) assuming T__0>0
with(inttrans):
S:=fourier(delta__t(t),t,omega)

I will note that Mathematica has the DiracComb function since 2008.  It also computes the result as an impulse

train:https://reference.wolfram.com/language/ref/DiracComb.html which is what I would expect.  Is there something I should be doing that I'm not aware of?

Why is Maple not assigning values to A and B in the below example (Maple2018)?

restart;
assume(A < B);

S := 2/(B-A);
                                  2  
                           S := -----
                                B~ - A~
B := 10; A := 5;
                            B := 10
                             A := 5
S;
                               2  
                             -----
                             B~ - A~