this is for holding javascript data
Kaitlyn Lieschke edited More of Kaity's Section.tex
about 9 years ago
Commit id: 432a1a17537e8022bc0dceb4421244592e47b9c4
deletions | additions
diff --git a/More of Kaity's Section.tex b/More of Kaity's Section.tex
index d1a3dab..06e3248 100644
--- a/More of Kaity's Section.tex
+++ b/More of Kaity's Section.tex
...
There is a well-measured constraint on YMCs that we can apply to predict the \textit{upper limit radii} for the MPCs. Recent high resolution imagining and spectral studies of YMCs have shown these systems to be in or close to equilibrium at ages of $\tilde~ 1.5 \leq 3$ years. \cite{Darwin_1900}
This implies that the YMCs must have gone through at least one full crossing time before their presently observed age. Using the crossing time equation,
$t_{cross}=(GMr^{-3}_{vir})−1/2$, $t_{cross}=(GMr^{-3}_{vir})^{−1/2}$, and fixing the crossing time to 1 Myr we can solve for t, which is only dependent on the mass. \cite{1999}
For the same clump mass range mentioned for rΩ above, rvir spans from 5.1 to 23.8 pc. This is an important aspect to keep in mind as there is no evidence for YMCs to have a proportionality between mass and radius. \cite{Bedini_2013}