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Wolfram Education Programs
Wolfram Summer Programs
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ABOUT ME:
The Wolfram Emerging Leaders Program (WELP) is a follow on from the Wolfram High School Summer Research Program, designed to give opportunities for exceptional students to continue to develop their skills. WELP students are organized into groups of 3-5, and work on a project together over the course of a 14 week semester. Students go through the entire product development cycle: from brainstorming a potential project, to creating a minimum viable product, to iterating on their idea, to producing an interesting and worthwhile project.
STAFF PICKS:
- [WELP24] Analyzing and modeling optimal fluid dynamics of skipping rocks on water
- [WELP24] Modeling the dynamics of earth-moon-sun system through the 3-body-problem
- [WELP24] Modeling electric fields of point charges in 3D
- [WELP24] Post-quantum hashing using chaotic double pendulum dynamics
- [WELP24] Established and novel methods for protein analysis in Wolfram Language
- [WELP24] On functional iteration and roots
- [WELP24] Exploring brain criticality with the Abelian sandpile model
- [WELP24] Scoring walkability of cities around the world using OSM
- [WELP24] Analyzing and visualizing the human protein-protein interaction network
- [WELP24] Cellular automata generation of 3D printer infill
- [WELP23] Theoretical and Applied Analyses of the Kuramoto Model
- [WELP23] Analyzing Video Game Box Art
- [WELP23] Generating Plant Structures with 3D Lindenmayer-Systems
- [WELP23] Enhancing Photosynthesis: Computational Visualizations Through Micro and Macro Scales
- [WELP23] PLAPT: Protein - Ligand Binding Affinity Prediction Using Pretrained Transformer Models
- [WELP23] Web-Based Foreign Language Learning Translation tool using LLMS
- [WELP23] Neural Network Compression and Empirical Verification of the Winning Lottery Hypothesis
- [WELP23] Implementing Chemical Kinetics Functions to the Wolfram Language
- [WELP23] Cellular Automata Modeling of Oil Spills
- [WELP23] Generating Hints for Practice Math Problems
- [WELP23] Analyzing Topographical and Elevation Data to Find an Optimized Settlement Location on Mars
- [WELP23] Generating Plant Structures with 3D Lindenmayer-Systems
- [WELP23] Creating a dataset for Air Quality and Alzheimer's
- [WELP23] Utilizing SIR Model Variations (ODEs) and Community Graph Networks for Trachoma
- [WELP22] Accelerating simulations of systems of particles
- [WELP22] Investigating changes in Arctic Sea ice levels
- [WELP22] Fake News Detection on Twitter: A Bayesian Framework
- [WELP22] Sub-axiomatic foundations of group theory in SK combinators
- [WELP22] Mathematical Modeling of Electrophysiology in Cardiac Cells
- [WELP22] Linking changes in stock prices to company events
- [WELP22] Solving and visualizing word problems
- [WELP22] Simulating media's effects on inflation in a simple economy
- [WELP22] Emotion detection in audio
- [WELP21] Analyzing bias in media
- [WELP21] Recommending WL functions from natural language input
- [WELP21] Emerging strategies of adversarial AIs for Tic-Tac-Toe & 2048
- [WELP21] Comparing translated texts to quantify language efficiency
- [WELP21] Reading and playing sheet music
- [WELP20] Political Idea Blocking - Simulating Political Change
- [WELP20] Using Linguistic Analysis to Computationally Replace Given Similes
- [WELP20] Using Hexagonal Cellular Automata to Model Flooding
- [WELP20] Acoustic Modeling with Generated Depth Maps
- [NB] WELP19: Non-Deterministic Localized Model of Disease Spread
- [WELP19] Exploring and Predicting Unemployment in the USA
- [WELP19] Detecting Gerrymandering with Visualization and Analysis
- [WELP19] Visualizing Topic Progression in a Text