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We just PONGED General Relativity
We implement Ray tracing simulations to get a Black Hole picture. We also show lightlike geodesics as a way to easily observe the physics behind everything.
The mold that you might see in your next graph theory course.
We created a multilayer perceptron neural network that calculates the diameter of an asteroid with accuracy on par with NASA’s current two-variable formula for diameter.
“Physics has its own Rosetta Stones. And this is one of them:Δ𝑢 = 0."- Brendan Cole writing in wired.coma
The Anderson localization of a quantum particle was simulated using the fourth-order Runge-Kutta method (RK4) for lattices with different degrees of disorder.
Representing Fluid Flow by Solving for Velocity Fields
An animation of a phenomenon that occurs when two waves meet while traveling along the same medium.
A set of Python routines, based on a machine learning approach. Based on the provision of a stellar spectrum the program determines the stellar spectral class based on characteristic spectral features
This project creates a python-based interactive simulator. Using the Ursina Python game engine, the user will be allowed to simulate various interactions live-time.
This program simulates the electric and chemical signals passing through neurons. We measured the change in electric potential caused by charge movement.
Sit back and solve your Laplacian!
Interactive simulation of a pendulum.
Simulating 3D shark-feeding dynamics
Our project aims to improve the accuracy of classifying the Ising model data into ordered and disordered phases, using supervised machine-learning models.
We Are En-Gauge-Ing In the Mass of Matter :)
Your mom always told you not to put hot pans directly on the table, as it could break it. We wanted to do it anyway but didn't have an unlimited supply of tables, so we used math instead.
Fast Radio Bursts (FRBs) are rare, brief, and extremely energetic astrophysical events from outside the milky way. Finding them remains a challenge; this project aims to develop sensitive new tests.
Simulation of the Hohmann transfer from Earth's orbit to Mars' orbit. Our project was done using Python and PyGame for the visuals.
A 3-D model of the formation of a star from a rotating gas cloud, using vPython software.
We use a spiking neural network to predict the finger velocity of a monkey during a random target-reaching task using recorded neural activity from the primary motor cortex.
Using the Competitive Lotka–Volterra equations to see how predator and prey populations in different ecosystems vary through time.
A simulator that visualizes the Lagrange points of two orbiting bodies with variables such as mass, distance, and speed. Small objects can be added to see how they behave in a two-body system.
Imagine a physics environment that can calculate gravitational interaction between multiple bodies and simulate their movements with precision.
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