Impact origin of the Vesta family

— The compelling petrographic link (Consolmagno and Drake, 1977; Gaffey, 1983) between basaltic achondrite meteorites and the ∼530 km diameter asteroid 4 Vesta has been tempered by a perceived difficulty in launching rocks from this asteroid's surface at speeds sufficient to bring them to Earth (Wasson and Wetherill, 1979) without obliterating Vesta's signature crust. I address this impasse in response to recent imaging (Zellner et al , 1996; Dumas and Hainaut, 1996) of a ∼450 km impact basin across Vesta's southern hemisphere (Thomas et al. , 1997) and model the basin‐forming collision using a detailed two‐dimensional hydrocode with brittle fracture including self‐gravitational compression (cf., Asphaug and Melosh, 1993). A ∼42 km diameter asteroid striking Vesta's basaltic crust (atop a denser mantle and iron core) at 5.4 km/s launches multikilometer fragments up to ∼600 m/s without inverting distal stratigraphy, according to the code. This modeling, together with collisional, dynamical, rheological and exposure‐age timescales (Marzari et al. , 1996; Welten et al. , 1996), and observations of V‐type asteroids (Binzel and Xu, 1993) suggests a recent (<∼1 Ga) impact origin for the Vesta family and a possible Vesta origin for Earth‐approaching V‐type asteroids (Cruik‐shank et al. , 1991).