Media Summary: Periods: Ti=60/(50+i) sec, Length: Li=9.8*(Ti/2/pi)^2 m Mass: Mi=1.0kg, (i=1,2,..., Periods: Ti=60/(30+i) sec, Length: Li=9.8*(Ti/2/pi)^2 m Mass: Mi=1.0kg, thetazero=pi/6.0 HiroLabo ... Sign up for the Grand Illusions newsletter, at You can see bigger versions of this scientific demonstration in ...
15 Ball Wave Pendulum Simulation - Detailed Analysis & Overview
Periods: Ti=60/(50+i) sec, Length: Li=9.8*(Ti/2/pi)^2 m Mass: Mi=1.0kg, (i=1,2,..., Periods: Ti=60/(30+i) sec, Length: Li=9.8*(Ti/2/pi)^2 m Mass: Mi=1.0kg, thetazero=pi/6.0 HiroLabo ... Sign up for the Grand Illusions newsletter, at You can see bigger versions of this scientific demonstration in ... This is a large-scale demonstration of the interaction between period and Pendulum waves simulation - Denis Potapov