**Table 2:** Lifetimes of Wolf-Rayet star from various initial masses and velocities and predictions for different number ratios (see text). The velocities are in km s^-1 and the lifetimes in Myr.
M	$v_{\rm ini}$	$t_{\rm WR}$	$t_{e\rm WNL}$	$t_{e\rm WNE}$	$t_{\rm WN/WC}$	$t_{\rm WC}$
120	0	0.6767	0.3499	0.0265	0.0038	0.2965
	300	1.3969	1.0402	0.0706	0.0010	0.2851
85	0	0.4846	0.1941	0.0231	0.0000	0.2674
	300	1.4050	1.0707	0.1263	0.0065	0.2015
60	0	0.3732	0.0838	0.0808	0.0000	0.2086
	300	0.7527	0.4489	0.0562	0.0202	0.2274
	300I	0.7779	0.4734	0.0346	0.0343	0.2356
	500	1.0787	0.7250	0.0816	0.0206	0.2515
	500I	1.0703	0.7312	0.0628	0.0211	0.2552
40	0	0.0714	0.0317	0.0397	0.0000	0.0000
	300	0.3670	0.1478	0.0000	0.0447	0.1745
25¹	0	0.0000	0.0000	0.0000	0.0000	0.0000
	300	0.2068	0.2068	0.0000	0.0000	0.0000
Predicted number ratios
$v_{\rm ini}$	${\rm WR} \over {\rm O}$	${\rm eWNL}\over {\rm WR}$	${\rm eWNE}\over {\rm WR}$	${\rm WN/WC}\over {\rm WR}$	${\rm WC}\over {\rm WR}$	${{\rm WC}\over {\rm WN}}^{2}$
0	0.02	0.35	0.16	0.00	0.49	0.97
300	0.07	0.66	0.05	0.04	0.25	0.35

¹ $M_{\min}$ for WR star formation from a single star is 37 and 22 for $\upsilon_{\rm ini}=0$ , 300 km s^-1 respectively.
² WC/WN = WC/(WNL+WNE).

Source LaTeX | All tables | In the text