The stability of the radio components of double sources confined by the ram pressure mechanism is discussed, and it is shown that they are unstable to the Rayleigh–Taylor and Kelvin–Helmholtz effects. Recent observations have shown a number of sources having component sizes much smaller than their distances from the parent galaxy, and for such sources the growth times of the instabilities are considerably shorter than the time taken for the ram pressure to bring the components to rest in the intergalactic medium. The non-linear development of the instabilities and the consequences for the evolution of double sources are discussed, and an observational effect suggested. An observational check of the Rayleigh–Taylor instability should be possible in the near future, and confirmation of its occurrence would be a useful test of the deceleration of components, and the ram pressure model in general.