⚛️ Physics Batch — Team Projects
10 Teams. Each team builds a physics-powered Android app using MIT App Inventor. Click your team to get the full step-by-step guide.
📖 Before You Start
Make sure everyone in your team has completed the Basics page and has an MIT App Inventor account ready. Each team member should understand Designer View, Blocks View, and how to test with AI Companion.
Team 1 — Unit Converter & Physics Constants
Build a universal unit converter app (length, mass, temperature, speed) with a built-in reference table of important physics constants.
Team 2 — Projectile Motion Simulator
Build an app that calculates range, max height, time of flight for projectile motion given angle and initial velocity. Includes trajectory visualization.
Team 3 — Ohm's Law & Circuit Calculator
Build an app that calculates voltage, current, resistance (Ohm's Law), power dissipation, and series/parallel resistance combinations.
Team 4 — Optics & Lens Calculator
Build an app that uses the lens/mirror formula to find image distance, magnification, and determines if the image is real/virtual, inverted/upright.
Team 5 — Newton's Laws Toolkit
Build an app that calculates force, acceleration, momentum, and work-energy for different scenarios using Newton's three laws of motion.
Team 6 — Pendulum Simulator
Build an app that calculates time period, frequency, and angular velocity of a simple pendulum for different lengths and gravitational values.
Team 7 — Wave Properties Calculator
Build an app that calculates wavelength, frequency, wave speed, and demonstrates the relationship between them. Includes sound wave and light wave modes.
Team 8 — Thermodynamics Calculator
Build an app that converts between temperature scales, calculates heat energy (Q = mcΔT), and demonstrates concepts of specific heat capacity.
Team 9 — Electric Field Mapper
Build an app that calculates electric field strength, force between point charges (Coulomb's Law), and electric potential at a point.
Team 10 — Friction & Inclined Plane App
Build an app that calculates friction force, normal force, and acceleration for objects on inclined planes with different angles and coefficients.