The addition reaction of chlorine with ethylene (C₂H₄) is expected to proceed via a free radical intermediate, the 2-chloroethyl radical, however, this intermediate has not been previously observed spectroscopically. Irradiation at 365 nm of a co-deposited mixture of Cl₂, C₂H₄, and p-H₂ at 3.2 K produces a series of new lines in the infrared spectrum. A strong line at 664.0 cm⁻¹ and weaker lines at 562.1, 1069.9, 1228.0, 3041.1 and 3129.3 cm⁻¹ are concluded to be due to a single carrier based on their behavior upon subsequent annealing to 4.5 K and secondary irradiation at 254 and 214 nm. The positions and intensities of these lines agree with the MP2/aug-cc-pVDZ predicted vibrational spectrum of the 2-chloroethyl (˙CH₂CH₂Cl) radical. In order to confirm this assignment, isotopic experiments were performed with C₂D₄ and t-C₂H₂D₂ and the corresponding infrared bands due to the deuterium isotopomers of this radical (˙CD₂CD₂Cl and ˙C₂H₂D₂Cl) have been observed. A final set of experiments were performed following irradiation of the Cl₂/C₂H₄/p-H₂ mixture at 365 nm, in which the matrix was irradiated with filtered infrared light from a globar source, which has been shown to induce reactions between isolated Cl atoms and matrix H₂ to produce HCl and H atoms. In these experiments, the major products observed were HCl, the ethyl radical (˙C₂H₅) and ethyl chloride (C₂H₅Cl) and the possible mechanisms for the formation of these species are discussed.