Courses from 1000+ universities
17 years ago, Krishna Kumar started offering free PMP prep online. Today, it’s a leading digital upskilling platform that helps millions upskill in AI, cybersecurity, data science, and more.
600 Free Google Certifications
Fundamentals of Neuroscience, Part 1: The Electrical Properties of the Neuron
Organic Chemistry 1
Mountains 101
Organize and share your learning with Class Central Lists.
View our Lists Showcase
Dive into solving electric current and potential problems with connected wires, exploring resistivity, diameter, and power calculations in a practical physics scenario.
Master the calculation of equivalent capacitance through a step-by-step solution using parallel and series combinations, with practical examples and clear mathematical explanations.
Master the application of Gauss's Law to solve electric field problems involving concentric spheres, focusing on field magnitude calculations at various radial distances.
Delve into magnetic force calculations through a detailed solution of current-carrying wire and loop interactions in electromagnetic systems.
Delve into solving a complex physics problem involving mass spectrometry, exploring how charged particles behave under electric and magnetic fields to determine mass-to-charge ratios.
Explore the mathematical derivation of RC circuits, focusing on capacitor discharge through resistors, with accompanying Python code demonstrations and practical applications.
Dive into circuit analysis through a practical problem-solving approach, exploring battery configurations, resistance optimization, and power dissipation calculations in parallel circuits.
Learn to create a celestial sphere visualization using Web VPython, combining astronomy concepts with Python programming for interactive 3D astronomical modeling.
Dive into solving resonance problems in driven RLC circuits through practical examples and Python-based calculations, focusing on current amplitude and frequency relationships.
Delve into electromagnetic induction through a practical problem involving moving conductors, magnetic fields, and induced currents in circuits with real-world applications.
Explore gravitational field calculations using Gauss's Law, with hands-on Python modeling and Monte Carlo methods to analyze Earth's internal and external gravitational effects.
Explore the mathematical derivation of the 2-body problem in physics using Python, with practical code implementation and visual demonstrations.
Explore the physics of coupled oscillators, focusing on two-mass systems with springs to understand equations of motion and normal modes in classical mechanics.
Explore gravitational field calculations for a ring mass using Python, with practical applications to Earth-sized systems and numerical analysis techniques.
Master line integrals and non-conservative forces in physics through practical Python implementations, focusing on work calculations along different paths using polar coordinates.
Get personalized course recommendations, track subjects and courses with reminders, and more.