Considerable interest has been aroused in recent years by reports that the transforming and carcinogenic effectiveness of low doses of high LET radiations can be increased by reducing the dose rate, especially for transformation of 10T1/2 cells in vitro by fission-spectrum neutrons. We report on conditions which have been established for irradiation of 10T1/2 cells with high LET monoenergetic alpha-particles (energy of 3.2 MeV, LET of 124 keV microns-1) from 238Pu. The alpha-particle irradiator allows convenient irradiation of multiple dishes of cells at selectable high or low dose rates and temperatures. The survival curves of irradiated cells showed that the mean lethal dose of alpha-particles was 0.6 Gy and corresponded to an RBE, at high dose rates, of 7.9 at 80 per cent survival and 4.6 at 5 per cent survival, relative to 60Co gamma-rays. The mean areas of the 10T1/2 nuclei, perpendicular to the incident alpha-particles, was measured as 201 microns2, from which it follows that, on average, only one in six of the alpha-particle traversals through a cell nucleus is lethal. Under the well-characterized conditions of these experiments the event frequency of alpha-particle traversals through cell nuclei is 9.8 Gy-1.