[ {"name":"Kinetic Energy","description":r""" Energy possessed by a moving object. $$KE = \frac{1}{2}mv^2$$ Where: - $m$: Mass (kg) - $v$: Velocity (m/s) ![Kinetic energy (Wikipedia)](https://upload.wikimedia.org/wikipedia/commons/thumb/4/44/Kinetic_energy.svg/1200px-Kinetic_energy.svg.png) ""","input":[{"name":"m","unit":"kilogram"},{"name":"v","unit":"meters per second"}],"output":{"name":"KE","unit":"joule"},"d4rtCode":"KE = 0.5 * m * pow(v, 2);","tags":["physics","energy","mechanics"]}, {"name":"Work","description":r""" Energy transferred when a force moves an object. $$W = F d \cos(\theta)$$ Where: - $W$: Work (Joules) - $F$: Force (Newtons) - $d$: Displacement (meters) - $\theta$: Angle between force and displacement ![Work (diagram) (Wikipedia)](https://upload.wikimedia.org/wikipedia/commons/thumb/e/e7/Work.svg/800px-Work.svg.png) ""","input":[{"name":"F","unit":"newton"},{"name":"d","unit":"meter"},{"name":"theta","unit":"degree"}],"output":{"name":"W","unit":"joule"},"d4rtCode":"var thetaRad = theta * (pi / 180); W = F * d * cos(thetaRad);","tags":["physics","energy","mechanics"]}, {"name":"Power","description":r""" Rate at which work is done or energy is transferred. $$P = \frac{W}{t}$$ Where: - $P$: Power (Watts) - $W$: Work or energy (Joules) - $t$: Time (seconds) ![Power (diagram) (Wikipedia)](https://upload.wikimedia.org/wikipedia/commons/thumb/9/90/Power_equation.svg/800px-Power_equation.svg.png) ""","input":[{"name":"W","unit":"joule"},{"name":"t","unit":"second"}],"output":{"name":"P","unit":"watt"},"d4rtCode":"P = W / t;","tags":["physics","energy","mechanics"]}, {"name":"Mass-Energy Equivalence","description":r""" Einstein's mass-energy equivalence relation. $$E = mc^2$$ Where: - $E$: Energy (Joules) - $m$: Mass (kg) - $c$: Speed of light $299{,}792{,}458\ \mathrm{m/s}$ This shows mass can be converted to energy and vice versa. ![Einstein formula (Wikipedia)](https://upload.wikimedia.org/wikipedia/commons/thumb/8/86/Einstein_light_beam.svg/800px-Einstein_light_beam.svg.png) ""","input":[{"name":"m","unit":"kilogram"}],"output":{"name":"E","unit":"joule"},"d4rtCode":"E = m * pow(299792458, 2);","tags":["physics","relativity","energy"]} ]