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Fundamentals of Neuroscience, Part 1: The Electrical Properties of the Neuron
Organic Chemistry 1
Mountains 101
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Discover hands-on data science and machine learning applications in materials science through interactive modules with lectures, tutorials, and cloud-based simulations.
Explore free nanoHUB simulation tools for materials science education, featuring ab initio modeling, electronic properties, Jupyter notebooks, and machine learning applications.
Master semiconductor physics and device operation through comprehensive coverage of quantum mechanics, crystal structures, bandstructure theory, and modern transistor design.
Master data science and machine learning through hands-on training using Jupyter notebooks, neural networks, random forests, and PCA—no coding experience required.
Explore thermoelectric science from theory to applications, covering transport coefficients, device design, and system optimization for power generation and cooling technologies.
Master statistical analysis, experimental design, and machine learning fundamentals using MATLAB and Excel for data interpretation and physics-based applications.
Master fiber optic communication fundamentals, from system components to quantum networks, covering lasers, amplifiers, multiplexing, and future technologies.
Discover semiconductor physics from energy bands to quantum mechanics, carrier dynamics, and device equations through Purdue's comprehensive fundamentals program.
Master nanophotonic modeling through photonic crystals, FDTD simulations, S-matrices, and FEM methods for advanced optical device design and analysis.
Explore cellular architecture, gene circuits, and biological oscillations while mastering quantitative design principles for engineering living systems and biosensors.
Master the physics and engineering principles behind nanoscale biosensors, covering sensitivity, selectivity, settling time, and real-world applications like genome sequencing.
Explore bioelectricity fundamentals in mammalian nervous systems, from molecular signaling to neuromodulation with nano-engineered devices and mathematical modeling.
Master essential aseptic techniques for safe cell culture including medium handling, vessel labeling, cell seeding, and contamination prevention in laboratory settings.
Explore quantum mechanics, electronic structure, molecular dynamics, and statistical mechanics to understand how atomic-scale physics governs material properties and behavior.
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