Questions - MaplePrimes

Contravariant metric...

Asked by: segfault 145

October 25 2024

2 2

If you are are given a contravariant metric, is there a system in maple similar to that to enter a covariant metric ?

As an example, in Maple you can enter a given arbitrary covariant metric by e.g.

ds := exp(2*psi(rho, z))*dt^2 - exp(-2*psi(rho, z))*(exp(2*sigma(rho, z))*(drho^2 + dz^2) + rho^2*dphi^2)

Coordinates(X = (rho, z, phi, t))

Then

Setup(metric = ds)

This then enters the metric into maple and from there on you can calculate all necessary tensors related the covariant metric

My Question is;

Is there a similar structure you can enter a given CONTRAvariant metric into maple by a similar structure as above without having to resort to first manually transforming the contravariant metric to covariant in order to enter into maple ?

Hamiltonian Energy procedure for Harmonic Oscillat...

Asked by: Paras31 245

October 24 2024

1 4

've written in Maple to set up and solve the differential equation for a simple harmonic oscillator and plot the solution. To incorporate the Hamiltonian into my worksheet, I needed to define the kinetic energy and potential energy of the system, and then combine them to express the total Hamiltonian. After that, I can calculate and plot the kinetic, potential, and total energies over time. Then I plotted the kinetic energy, potential energy, and total energy over time

Hamiltonian Energy

In a linear simple harmonic oscillator (SHO), the Hamiltonian energy represents the total energy of the system, which is a combination of its kinetic and potential energy.

1.	Position and Momentum:

•	Let be the displacement of the oscillator from its equilibrium position.

•	Let be the momentum of the oscillator.

2.	Hamiltonian ():

•	The Hamiltonian function is expressed in terms of the kinetic energy () and the potential energy () of the system.

•	For a linear SHO, it is given by:

3.	Kinetic Energy (T):

Kinetic energy depends on the mass of the object and its velocity. In physics, it's expressed as:

where:

•	is the mass of the oscillator,

•	This equation shows that kinetic energy increases with the square of the momentum.

4.	Potential Energy ()

Potential energy in a simple harmonic oscillator arises from the restoring force of the spring. The potential energy is given by:

V = (1/2)*k*x^2

•	is the spring constant, and

•	is the displacement from the equilibrium position.

This means that the further the mass is displaced from equilibrium, the greater the potential energy stored in the system.

>

k := 100; m := 1; omega := sqrt(k/m)

(1)

>	$ODE__1 := diff(x(t), t, t)+omega^2*x(t) = 0; IC := x(0) = A, (D(x))(0) = 0; sol := dsolve({IC, ODE__1}, x(t))$

diff(diff(x(t), t), t)+100*x(t) = 0

(2)

>

A := 1; x_t := rhs(subs(A = 1, sol)); v_t := diff(x_t, t)

(3)

>

plot_1 := subs(A = 1, sol); plotsresult := plot([rhs(plot_1)], t = 0 .. 2, legend = ["0.1cos(10 t)"], color = [red])

>

directionfield := DEplot([diff(x(t), t) = v(t), diff(v(t), t) = -omega^2*x(t)], [x(t), v(t)], t = 0 .. 10, x = -2 .. 2, v = -10 .. 10, arrows = medium, title = "Direction Field for Simple Harmonic Oscillator", axes = boxed)

>	$sol1 := dsolve({ODE__1, x(0) = 1, (D(x))(0) = 0}, x(t)); sol2 := dsolve({ODE__1, x(0) = .5, (D(x))(0) = 0}, x(t)); sol3 := dsolve({ODE__1, x(0) = -1, (D(x))(0) = 0}, x(t)); sol4 := dsolve({ODE__1, x(0) = .7, (D(x))(0) = .5}, x(t))$

(4)

>

x1 := rhs(sol1); x2 := rhs(sol2); x3 := rhs(sol3); x4 := rhs(sol4); v1 := diff(x1, t); v2 := diff(x2, t); v3 := diff(x3, t); v4 := diff(x4, t)

(5)

>

T := (1/2)*m*v_t^2; V := (1/2)*k*x_t^2; H := T+V

(6)

>

energy_plot := plot([eval(T), eval(V), eval(H)], t = 0 .. 2, color = [red, blue, green], legend = ["Kinetic Energy", "Potential Energy", "Total Energy"], title = "Energy Exchange in Simple Harmonic Oscillator", labels = ["Time (s)", "Energy (Joules)"])

>

Download Hamiltonian_Energy.mw
Now, in the second worksheet, I tried to create a procedure to calculate the Hamiltonian Energy for a general example. I have set delta = 0: This removes the damping effect, leaving only the spring constant k and mass m as factors. Now the equation represents a pure simple harmonic oscillator:

The Hamiltonian (total energy) should be conserved, meaning it will remain constant over time without damping. The plot of H(t) should show a straight line, indicating that the kinetic and potential energy sum does not change. But as you can see the energy increases over time. I can not figured out where is my mistake in this code

Any guidance or examples of implementation would be greatly appreciated!

Thank you!

>

$with(plots); k := 100; m := 1; delta := 0; omega := sqrt(k/m); ODE__2 := m*(diff(x(t), t, t))+delta*(diff(x(t), t))+k*x(t) = 0; IC := x(0) = .1, (D(x))(0) = 0; soln := dsolve({IC, ODE__2}, x(t), numeric, output = listprocedure); H := proc (t) local pos, vel, kinetic, potential; pos := rhs(soln(t)[2]); vel := rhs(soln(t)[3]); kinetic := (1/2)*m*vel^2; potential := (1/2)*k*pos^2; return kinetic+potential end proc; timeRange := 0 .. 100; plot(H(t), t = timeRange, title = "Hamiltonian Energy vs Time", labels = ["Time (t)", "Energy (H)"])$

diff(diff(x(t), t), t)+100*x(t) = 0

proc (t) local pos, vel, kinetic, potential; pos := rhs(soln(t)[2]); vel := rhs(soln(t)[3]); kinetic := (1/2)*m*vel^2; potential := (1/2)*k*pos^2; return kinetic+potential end proc

>

Download Hamiltoninan_procedure_.mw

Solving an ODE perturbation problem....

Asked by: Al86 150

October 24 2024

0 4

I have this problem:

(x'+x''+epsilon/x)(x'-(x')^3/3!)(x''-(x'')^3/3!)(epsilon/x -(epsilon/x)^3/3!)=1

x(0)=epsilon , x'(epsilon)=epsilon+epsilon^{-1}

0<epsilon<<1

Now I want to try the ansatz: x(epsilon,t)=x_{-1}(t)/epsilon+x_0(t)+x_1(t)epsilon.

Can you suggest me a way to implement this ansatz (i.e finding x_{-1}(t),x_0(t),x_1(t)).

Appreciate your time!

Singular vectors of a 2x2 matrix ...

Asked by: rzarouf 45

October 24 2024

3 9

Hi, I have a very concrete task, which is to find the singular vector associated with the largest singular matrix of the matrix M below. Here, a is an arbitrary complex number, l is of magnitude stritcly less than 1, and k>0. The command 'SingularValues' returns the 2 singular values of M. But when I search for the corresponding singular vectors, there is a bug. Those vectors are the eigenvectors of M*M. When I use the command Eigenvectors, the second argument returned is the 2 by 2 null matrix. And when I use the command eigenvects I have an error message (see below). Anyone could help me to fix this issue please?

Many thanks in advance.

>

with(LinearAlgebra); assume(k > 0); assume(abs(l) < 1); M := Matrix(2, 2, {(1, 1) = l-(1-l*conjugate(l))*k, (1, 2) = -a*(1-l*conjugate(l))*k, (2, 1) = 0, (2, 2) = l+(1-l*conjugate(l))*k})

Matrix(%id = 36893488151898158132)

(1)

>

(1/2)*(2*(-abs(l)^2+1)*k*(k^2*(abs(l)-1)^2*(abs(l)+1)^2*abs(a)^4+(4*k^2*abs(l)^4+(-8*k^2+4)*abs(l)^2+4*k^2)*abs(a)^2+4*l^2+8*abs(l)^2+4*conjugate(l)^2)^(1/2)+2*k^2*(abs(a)^2+2)*abs(l)^4+4*(-abs(a)^2*k^2-2*k^2+1)*abs(l)^2+2*k^2*(abs(a)^2+2))^(1/2)

(2)

>

Matrix(%id = 36893488151996380692)

(3)

>

Vector[column](%id = 36893488151975984532), Matrix(%id = 36893488151975984652)

(4)

>

$eigenvectors(Matrix(2, 2, {(1, 1) = (l-(1-l*conjugate(l))*k)*conjugate(l-(1-l*conjugate(l))*k), (1, 2) = -conjugate(l-(1-l*conjugate(l))*k)*a*(1-l*conjugate(l))*k, (2, 1) = -k*conjugate(a*(1-l*conjugate(l)))*(l-(1-l*conjugate(l))*k), (2, 2) = a*(1-l*conjugate(l))*k^2*conjugate(a*(1-l*conjugate(l)))+(l+(1-l*conjugate(l))*k)*conjugate(l+(1-l*conjugate(l))*k)}))$

Error, (in linalg:-eigenvectors) eigenvects only works for a matrix of rationals, rational functions, algebraic numbers, or algebraic functions at present

Download singular_vect_2_by_2_matrix.mwsingular_vect_2_by_2_matrix.mw

How to plot a 3D graph if all axes values given us...

Asked by: Andiguys 65

October 24 2024

1 18

Draw 3D graph, if values are given as below (What is the syntax?)

Sl no x-axis y axis z axis

1, 80, 1, 1.80074340195803263
2, 80, 2, 1.79160585795803287
3. 80, 3, 1.78054462095803290
4, 80, 4, 1.76755968995803269
5,80, 5, 1.75265106495803280
6,80, 6, 1.73581874695803272
7, 80, 7, 1.71706273595803272
8,85, 1, 1.71097991748770582
9, 85, 2, 1.70184237348770577
10, 85, 3, 1.69078113648770581
11, 85, 4, 1.67779620548770559
12, 85, 5, 1.66288758048770571
13, 85, 6, 1.64605526248770562
14, 85, 7, 1.62729925148770591
15, 95, 1, 1.53550477309879818
16, 95, 2, 1.52636722910871089
17, 95, 3, 1.51530599205435690
18, 95, 4, 1.50232106105435669
19, 95, 5, 1.48741243605435680
20, 95, 6, 1.47058011805435672
21, 95, 7, 1.45182410705435672
22, 100, 1, 1.44826461660029512
23, 100, 2, 1.43912707260029623
24, 100, 3, 1.42806583560029569
25, 100, 4, 1.41508090460029576
26, 100, 5, 1.40017227960029588
27, 100, 6, 1.38333996160029579
28, 100, 7, 1.36458395060029579

Matrix formulation using proc depending on two par...

Asked by: Muhammad Usman 240

October 23 2024

0 0

Hi Dear,

I hope everyone is fine here. In the attached file, I have generated a square matrix "Q" using two-dimensional polynomials. The dimension of the square matrix "Q" depends on M1 and M2 parameters. In my simulation, sometimes I need this matrix of 1000 by 1000 dimensions. Using the attached method, it took a lot of time to compute two-dimensional polynomials and then to compute the general square matrix "Q." I wanted to write this matrix using proc (procedures). Maybe by using this way, I don't need to compute the polynomials, and it took less time to compute the square matrix "Q." I know how to generate a matrix using proc when its dimension depends on one parameter. However, here, the dimension of matrix "Q" depends on two parameters, M1 and M2. So, I am a little bit confused about how to adjust them in proc. Please see the attached file and share your useful ideas.

help.mw

Thanks in advance

How to generate a better looking sphere with a che...

Asked by: C_R 3412

October 23 2024

2 9

In the attachment is an attempt with undesireable rendering artefacts

I did not use color functions because I intend to export the black fields of the ball to stl format to use them for a better visualisation of spinning spheres in MapleSim.

A related question: The generating function for the chessboard looks complicated to me. Maybe there is a more elegant way to do it.

Chessboard_sphere.mw

Why equation not run ?...

Asked by: salim-barzani 1560

October 23 2024

0 2

i did all the time like that and don't have any issue but i don't know why not take derivative by x and t have a problem when i remove t is ok but when i take duble derivative by x and t not run and did't give me error too what is problem with this?

Download non_sense.mw

Stop execution of Grid:-Map() if one node finds a ...

Asked by: giulios 10

October 23 2024

2 0

As by title, is it possible to check intermediate results found by nodes when using Grid:Map, and stop the execution according to these?

Monetizing a Maple Package...

Asked by: Mike Mc Dermott 100

October 22 2024

1 1

Is there a way to license a Maple package? Protect it from copying?

Thanks

Unable to solve for delta?...

Asked by: Andiguys 65

October 22 2024

0 2

When i am solving for delta...its taking so much time? And the simplyfying command not working showing error
Attaching sheet: Q_simplify_solv.mw

why not do cancelation at 2024 version...

Asked by: salim-barzani 1560

October 21 2024

0 1

every time i have a small problem 2 why not cancel number 2 in denominator , i don't want see a number with fraction like 1/3 3/4 how i fix this

>

K := (1/2)*sqrt(2*sqrt(2)*sqrt(lambda*a[5]/a[4])+2*sqrt(-2*a[5]/a[4])*(B[1]*sqrt(-lambda)*sinh(sigma)+B[2]*sqrt(-lambda)*cosh(sigma))/(B[1]*cosh(sigma)+B[2]*sinh(sigma)+mu/lambda)+2*sqrt(-(2*(lambda^2*B[1]^2*a[5]-lambda^2*B[2]^2*a[5]-mu^2*a[5]))/(lambda*a[4]))/(B[1]*cosh(sigma)+B[2]*sinh(sigma)+mu/lambda))*e^(i*psi(x, t))

Warning, if e is meant to be the exponential e, use command/symbol completion or palettes to enter this special symbol, or use the exp function

(1/2)*(2*2^(1/2)*(lambda*a[5]/a[4])^(1/2)+2*(-2*a[5]/a[4])^(1/2)*(B[1]*(-lambda)^(1/2)*sinh(sigma)+B[2]*(-lambda)^(1/2)*cosh(sigma))/(B[1]*cosh(sigma)+B[2]*sinh(sigma)+mu/lambda)+2*(-2*(lambda^2*B[1]^2*a[5]-lambda^2*B[2]^2*a[5]-mu^2*a[5])/(lambda*a[4]))^(1/2)/(B[1]*cosh(sigma)+B[2]*sinh(sigma)+mu/lambda))^(1/2)*e^(i*psi(x, t))

(1)

>

(2)

>

(1/2)*2^(3/4)*(((coth(sigma)*(-lambda)^(1/2)*(-a[5]/a[4])^(1/2)+(lambda*a[5]/a[4])^(1/2))*B[2]+csch(sigma)*(lambda*a[5]*B[2]^2/a[4])^(1/2))/B[2])^(1/2)*e^(i*psi(x, t))

(3)

>

(1/2)*2^(3/4)*(((coth(sigma)*(-lambda)^(1/2)*(-a[5]/a[4])^(1/2)+(lambda*a[5]/a[4])^(1/2))*B[2]+csch(sigma)*(lambda*a[5]*B[2]^2/a[4])^(1/2))/B[2])^(1/2)*e^(i*psi(x, t))

(4)

>

(1/2)*2^(3/4)*(((coth(sigma)*(-lambda)^(1/2)*(-a[5]/a[4])^(1/2)+(lambda*a[5]/a[4])^(1/2))*B[2]+csch(sigma)*(lambda*a[5]*B[2]^2/a[4])^(1/2))/B[2])^(1/2)*e^(i*psi(x, t))

(5)

>

(1/2)*2^(3/4)*(((coth(sigma)*(-lambda)^(1/2)*(-a[5]/a[4])^(1/2)+(lambda*a[5]/a[4])^(1/2))*B[2]+csch(sigma)*(lambda*a[5]*B[2]^2/a[4])^(1/2))/B[2])^(1/2)*e^(i*psi(x, t))

(6)

Download cancelation.mw

How can I make maple compute faster?...

Asked by: GFY 65

October 21 2024

0 2

Recently a new configuration of a computer, with a better cpu - AMD Ryzen 7 8700G w/ Radeon 780M Graphics, but maple computation is particularly slow, cpu call special less computation is particularly slow, is there any way to improve?

How change trigonometry to shorter trigonometric ?...

Asked by: salim-barzani 1560

October 20 2024

0 9

How we can change identity like 1/sin(x)=csc(x) or 1/cos(x)=sec(x) sometime our function is beger than this and radical come in how i can do thus simplification?

>

(1)

>

(2)

>

(3)

>

(4)

>

(5)

>

(6)

>

(7)

>

Q := sqrt(beta[0]/(B[1]*cosh(xi*sqrt(-lambda))))

(beta[0]/(B[1]*cosh(xi*(-lambda)^(1/2))))^(1/2)

(8)

(beta[0]/(B[1]*cosh(xi*(-lambda)^(1/2))))^(1/2)

(9)

>

(beta[0]/(B[1]*cosh(xi*(-lambda)^(1/2))))^(1/2)

(10)

Download identity_change.mw

1D Heat Equationwith Robin boundary conditions...

Asked by: Scot Gould 1039

October 20 2024

3 9

Since my problem involving a 2d heat equation was answered so well,

(hats off to nm !!) I thought I would try another PDE question.

Question: can pdsolve handle a combination of the function and its derivative for

the boundary conditions, i.e., Robin boundary conditions?

I looked through the document example, pdsolve_boundaryconditions, which was

beautifully written. However, I saw no example with Robin BCs.

>

proc (x) options operator, arrow, function_assign; T__0*exp(-alpha__0)*cos(Pi*x/L__0) end proc

The equation and the initial condition:

>

heat_equation := diff(T(x, t), t) = k*(diff(T(x, t), x, x)); initial_condition := T(x, 0) = T__i(x)

Using a linear combination of the function and its derivative, i.e., Robin BCs.

>

boundary_conditions := `α__r`*T(0, t)+`β__r`*(D[1](T))(0, t) = f(t), `α__r`*T(L__0, t)+`β__r`*(D[1](T))(L__0, t) = g(t)

Setting the constants

>

" `alpha__r` := 1: #` Constant for boundary condition` `beta__r` := 2: #` Constant for boundary condition` `T__s`:= 10: #` Time interval` k:=9/(10): #` Heat-conductivity of material` f(t) :=-1/(10) t: g(t):=1/(10) t: "

Solving using nm's technique of not defining the function before calling pdsolve

>	$sols := pdsolve({heat_equation, boundary_conditions, initial_condition}, T(x, t))$

Now include the initial temperature function

>

Extracting the solution, and using 20 terms

>

-134/135+(1/270)*x^3-(7/90)*x^2+(67/135)*x+Sum(exp(-(9/1000)*Pi^2*n^2*t)*(Pi*n*cos((1/10)*n*Pi*x)-5*sin((1/10)*n*Pi*x))*(Int(-(x^3-21*x^2+134*x-27000*exp(-3/50)*cos((1/10)*Pi*x)-268)*(Pi*n*cos((1/10)*n*Pi*x)-5*sin((1/10)*n*Pi*x)), x = 0 .. 10))/(1350*Pi^2*n^2+33750), n = 1 .. 20)+(1/50)*t*x-(7/50)*t