1. Jason’s instantaneous acceleration down the slide, where theta is the angle of the slide, and mu is the coefficient of friction.
2. The time for one full swing cycle, based on Focault’s formula for the pendulum (l is the length of the chain).
3. The centripetal force Jason experiences on the merry-go-round (v is velocity, m is Jason’s mass, r is his distance from the center of the merry-go-round)
5. The force of gravity between Jason and the Earth, where r is the Earth’s radius.
4. Not sure, but I think this is the displacement of a spring subject to dampening.
tbonepolar over 13 years ago
the day i was born
Fan o’ Lio. over 13 years ago
July 9, 2011 - Happy Birthday, Tbonepolar
foxsurrickgocomic almost 12 years ago
What does it say???
gocomics over 10 years ago
1. Jason’s instantaneous acceleration down the slide, where theta is the angle of the slide, and mu is the coefficient of friction.
2. The time for one full swing cycle, based on Focault’s formula for the pendulum (l is the length of the chain).
3. The centripetal force Jason experiences on the merry-go-round (v is velocity, m is Jason’s mass, r is his distance from the center of the merry-go-round)
5. The force of gravity between Jason and the Earth, where r is the Earth’s radius.
4. Not sure, but I think this is the displacement of a spring subject to dampening.
Pango Premium Member over 4 years ago
Jason says he’s 10, but is he in like 14th grade?
Lemmy Koopa over 3 years ago
11010000010010010010111001000010011110000101010101000001010