https://www.explainxkcd.com/wiki/api.php?action=feedcontributions&feedformat=atom&user=2.82.142.28explain xkcd - User contributions [en]2026-04-16T15:36:30ZUser contributionsMediaWiki 1.30.0https://www.explainxkcd.com/wiki/index.php?title=Talk:162:_Angular_Momentum&diff=48389Talk:162: Angular Momentum2013-09-03T12:55:37Z<p>2.82.142.28: My attempt at solving the "neat physics puzzle"</p>
<hr />
<div>The issue date is not given, as i don't have a clue about it. Could someone fix this? [[User:Rikthoff|Rikthoff]] ([[User talk:Rikthoff|talk]]) 19:30, 3 August 2012 (EDT)<br />
<br />
:When the page was updated to the new comic template by [[User:Bpothier]] he fixed the date. [[User:Lcarsos|lcarsos]] ([[User talk:Lcarsos|talk]]) 20:48, 28 August 2012 (UTC)<br />
<br />
That actually is a neat physics puzzle, which has probably (i.e. certainly) been addressed somewhere on the net. I may incorporate that some day. --[[User:Quicksilver|Quicksilver]] ([[User talk:Quicksilver|talk]]) 05:58, 24 August 2013 (UTC)<br />
<br />
I tried to calculate the change in Earth's period, assuming that she was standing in the north pole (latitude = 90ยบ N), where her spinning would have more effect. I either did something wrong, or my TI-84 Plus is not capable of detecting the very small effect her spinning would have on the Earth's rotation. I assumed the Earth had a period of exactly 24 hours, and got the same value to the second, even if she was spinning at 1000 turns per second, which seems like a lot.<br />
<br />
Here's the formula:<br />
<br />
L_Earth_i = L_Earth_f + L_spinner <=><br />
<br />
I_Earth * (2*PI)/T_Earth_i = I_Earth * (2*PI)/T_Earth_f + I_spinner* (2*PI) * f_spinner <=><br />
<br />
(1/T_Earth_f) = (1/T_Earth_i) - (I_spinner/I_Earth)*f_spinner <=><br />
<br />
T_Earth_f = 1/((1/T_Earth_i) - (I_spinner/I_Earth)*f_spinner)<br />
<br />
<br />
Where the variables have names in the format:<br />
<br />
[variable name]_[object it refers to]_[situation (i or f stand for initial and final)]<br />
<br />
<br />
L = Angular Moment<br />
<br />
I = Moment of Inertia<br />
<br />
T = Period of rotation about one's axis<br />
<br />
f = frequency<br />
<br />
<br />
I used as values:<br />
<br />
T_Earth_i = 86400 seconds (24 hours exactly)<br />
<br />
I_spinner = 62,04 Kg.m^2 (Found on Wolfram|Alpha, for a 62Kg adult human being)<br />
<br />
I_Earth = 8,03e+37 Kg.m^2 (http://scienceworld.wolfram.com/physics/MomentofInertiaEarth.html)<br />
<br />
f_spinner = the frequency of the woman's spinning in complete turns per second.</div>2.82.142.28