The ground and first excited singlet states of monochlorosilylene have been reexamined using pulsed discharge jet and laser induced fluorescence techniques. HSiCl and DSiCl have been produced by an electric discharge through SiHCl3 and SiDCl3 vapor in argon. The O-O(O) band rotational constants of four isotopomers of HSiCl and the harmonic force fields for both states have been combined to obtain the following estimates of the equilibrium structures : r "(SiCl) = 2.067(3) Angstrom, r "(SiH)=1.525(5) Angstrom, theta "(HSiCl)= 96.9(5)degrees, r’(SiCl) =2.040(3) Angstrom, r’(SiH)=1.532(8) Angstrom, and theta’(HSiCl)=118.1(5)degrees. Previous anomalies in the ground-state structure and the excited-state vibrational frequencies have been resolved. The radiative lifetime of the 480-400 nm ((A) over tilde(1)A " - (X) over tilde(1)A’) band system of HSiCl has been measured to be 432 +/- 20 ns.