http406

-Intersteller-Darwin-IV-Alien-Planet-

Planet is a 94-minute docufiction, originally airing on the Discovery Channel, about two internationally built robot probes searching for alien life on the fictional planet Darwin IV.

-Psychedelia

-Space-and-Vector

DISCLAIMER:The code is for educational purposes only. You can use it for educational purposes only not for commercial uses. In vector calculus and physics, a vector field is an assignment of a vector to each point in a subset of space. For instance, a vector field in the plane can be visualised as a collection of arrows with a given magnitude and direction, each attached to a point in the plane. Vector fields are often used to model, for example, the speed and direction of a moving fluid throughout space, or the strength and direction of some force, such as the magnetic or gravitational force, as it changes from one point to another point. The elements of differential and integral calculus extend naturally to vector fields. When a vector field represents force, the line integral of a vector field represents the work done by a force moving along a path, and under this interpretation conservation of energy is exhibited as a special case of the fundamental theorem of calculus. Vector fields can usefully be thought of as representing the velocity of a moving flow in space, and this physical intuition leads to notions such as the divergence (which represents the rate of change of volume of a flow) and curl (which represents the rotation of a flow).

Brownian-Fluid

Brownian motion is a random process where particles, such as molecules or colloidal particles, move randomly in a fluid medium due to collisions with solvent molecules. It's named after the botanist Robert Brown, who observed the erratic movement of pollen grains in water under a microscope.

Building-Ai-Course-Elements-of-AI

The course content is free of charge, but if you'd like to improve your CV, purchase a shareable certificate. It will be available when you successfully complete the course.

Hacker-Terminal

I create a simple hacker terminal with an interesting twist in it. Hope you guys like it and further improvement warmly accepted.

Keylogger-

Keyloggers are programs that capture your key strokes. They can be used to keep logs of everything you press on the keyboard but on the flip side it can be used for malicious purposes as well. A simple cyber security project.

Suduku-Solver-X-Wing-Swordfish-in-Javascript

SudukoSolve 11 x 11 X-Wing & Swordfish To make the algorithm smarter and solve 11x11 Sudoku puzzles faster than the previous one 3 x3, thr implement additional optimization techniques. But the program is written in javascript.

Tic-Tac-Toe-Game---Unbeatable-AI-

Tic Tac Toe game. You can choose your game mode. The AI part is built using minimax and I include something more there. Check the code to reveal this. Comment down how many time you beat the AI? I will improve its features in future updates!

Vector-Field-matplotlib

Vector fields associate a 2D vector to each point of the 2D plane. Vector fields are common in Physics as they provide solutions to differential equations. Matplotlib provides functions to visualize vector fields. To illustrate the visualization of vector fields, let's visualize the velocity flow of an incompressible fluid around a cylinder. We do not need to bother about how to compute such a vector field but only about how to show it. The pyplot.quiver() function is what we need. How the project work: Although the script is a bit long, the purely graphical part is simple. The vector field is stored in the matrices U and V: the coordinates of each vector we sampled from the vector field. The matrices X and Y contain the sample positions. The matrices X, Y, U, and V are passed to pyplot.quiver(), which renders the vector field. Note that pyplot.quiver() can take just U and V as parameters, but then the legend will show the indexes of the samples rather than their coordinates. As the vector field that we used as an illustration here the fluid flow around a shape, the shape itself is shown as follows: shape = patches.Circle((0, 0), radius = 1., lw = 2., fc = 'w', ec = 'k', zorder = 0) plt.gca().add_patch(shape) The vector field inside the cylinder does not appear; we use a masked array. We first create a mask that defines which samples should be shown. Then, we apply this mask on U and V, as shown in the script.

http406/Vector-Field-matplotlib

Vector fields associate a 2D vector to each point of the 2D plane. Vector fields are common in Physics as they provide solutions to differential equations. Matplotlib provides functions to visualize vector fields. To illustrate the visualization of vector fields, let's visualize the velocity flow of an incompressible fluid around a cylinder. We do not need to bother about how to compute such a vector field but only about how to show it. The pyplot.quiver() function is what we need. How the project work: Although the script is a bit long, the purely graphical part is simple. The vector field is stored in the matrices U and V: the coordinates of each vector we sampled from the vector field. The matrices X and Y contain the sample positions. The matrices X, Y, U, and V are passed to pyplot.quiver(), which renders the vector field. Note that pyplot.quiver() can take just U and V as parameters, but then the legend will show the indexes of the samples rather than their coordinates. As the vector field that we used as an illustration here the fluid flow around a shape, the shape itself is shown as follows: shape = patches.Circle((0, 0), radius = 1., lw = 2., fc = 'w', ec = 'k', zorder = 0) plt.gca().add_patch(shape) The vector field inside the cylinder does not appear; we use a masked array. We first create a mask that defines which samples should be shown. Then, we apply this mask on U and V, as shown in the script.

http406/-Space-and-Vector

DISCLAIMER:The code is for educational purposes only. You can use it for educational purposes only not for commercial uses. In vector calculus and physics, a vector field is an assignment of a vector to each point in a subset of space. For instance, a vector field in the plane can be visualised as a collection of arrows with a given magnitude and direction, each attached to a point in the plane. Vector fields are often used to model, for example, the speed and direction of a moving fluid throughout space, or the strength and direction of some force, such as the magnetic or gravitational force, as it changes from one point to another point. The elements of differential and integral calculus extend naturally to vector fields. When a vector field represents force, the line integral of a vector field represents the work done by a force moving along a path, and under this interpretation conservation of energy is exhibited as a special case of the fundamental theorem of calculus. Vector fields can usefully be thought of as representing the velocity of a moving flow in space, and this physical intuition leads to notions such as the divergence (which represents the rate of change of volume of a flow) and curl (which represents the rotation of a flow).

http406/-Psychedelia

http406/Vect-Field-Remastered.py

From the previous code of Vector Field 2D, using arrows to represent a vector field works fairly well. But matplotlib can do better than this—it can show the streamlines of a vector field. A streamline shows how the vector field flows. In this recipe, we will show you how to create streamlines. Let's use the fluid flow example of the previous recipe. You will simply replace the arrows ( the first code of vector field ) with streamlines, as shown in the following code.

http406/-Dark-Matter-Exotic-Particles-

DISCLAIMER: The code is for educational purposes only. You can use it for educational purposes only not for commercial uses. 💕 I set up the code in different perspectives. We are not able to see dark matters. Think somehow we invert our visible light, and see how dark matter formed. The background should white to detect them clearly. The particles you see now is the exotic particles ( Hypothetical ) that exert a gravitational pull and create a dark matter. Click on the screen I add an effect when they vanished and visible photon ( white space ) extracted gradually. Enjoy...

http406/-Intersteller-RED-giant

DISCLAIMER:The code is for educational purposes only. You can use it for educational purposes only not for commercial uses. A red giant is a luminous giant star of low or intermediate mass (roughly 0.3–8 solar masses (M☉)) in a late phase of stellar evolution. The outer atmosphere is inflated and tenuous, making the radius large and the surface temperature around 5,000 K (4,700 °C; 8,500 °F) or lower. The appearance of the red giant is from yellow-orange to red, including the spectral types K and M, but also class S stars and most carbon stars.

http406/Aesthetic-Pattern-matplotlib

When you have a very specific need in mind, the figures offered by matplotlib might not be of much help to you. All the graphics made by matplotlib consist of basic primitives. When demonstrating how to change the color of a boxplot, most matplotlib plotting functions return collections of lines and shapes.

http406/Design-and-Build-an-Arduino-Based-Touch-Capacitive-Piano-PCB-with-Recording-and-Replay

http406/Mandelbrot-matplotlib

The term Mandelbrot set is used to refer both to a general class of fractal sets and to a particular instance of such a set. In general, a Mandelbrot set marks the set of points in the complex plane such that the corresponding Julia set is connected and not computable.

http406/Quiver-Plot-matplotlib

A quiver(x,y,u,v) plot displays the velocity vectors as arrows with components (u,v) at the points (x,y). The above command plots vectors as arrows at the coordinates specified in each corresponding pair of elements in x and y.