Imagine you want to study what happens when an object accelerates. Oh, this is way before any of that internet stuff—also, no computers or electronics. In fact, let's say it's the year 1780. What do ...

We're at the Porsche test track to learn all about acceleration. Unit 2 Segment C: Acceleration and Kinematic Equations We're back at the Porsche test track to learn all about acceleration. Kinematic ...

In a fixed-field alternating-gradient (FFAG) accelerator, eliminating pulsed magnet operation permits rapid acceleration to synchrotron energies, but with a much higher beam-pulse repetition rate.

SIAM Journal on Numerical Analysis, Vol. 32, No. 1 (Feb., 1995), pp. 179-214 (36 pages) Linear algebraic formulations of discretized, mono-energetic, steady-state, linear Boltzmann transport equations ...

Acceleration close accelerationThe rate of change in speed (or velocity) is measured in metres per second squared. Acceleration = change of velocity ÷ time taken. is the rate of change of velocity. It ...

A tool called AI-Newton can derive scientific laws from raw data, but is some way from developing human-like reasoning.

Proceedings of the National Academy of Sciences of the United States of America, Vol. 106, No. 34 (Aug. 25, 2009), pp. 14213-14218 (6 pages) We derive a system of three coupled equations that ...

I assume the laws of physics still apply in "unintended acceleration." In particular, F=ma, "force equals mass times acceleration," implies that acceleration depends on a continued applied force. With ...