<P> The former are described in detail below; the larger geological units are discussed elsewhere under bars . </P> <P> There are several conspicuous parts to a beach that relate to the processes that form and shape it . The part mostly above water (depending upon tide), and more or less actively influenced by the waves at some point in the tide, is termed the beach berm . The berm is the deposit of material comprising the active shoreline . The berm has a crest (top) and a face--the latter being the slope leading down towards the water from the crest . At the very bottom of the face, there may be a trough, and further seaward one or more long shore bars: slightly raised, underwater embankments formed where the waves first start to break . </P> <P> The sand deposit may extend well inland from the berm crest, where there may be evidence of one or more older crests (the storm beach) resulting from very large storm waves and beyond the influence of the normal waves . At some point the influence of the waves (even storm waves) on the material comprising the beach stops, and if the particles are small enough (sand size or smaller), winds shape the feature . Where wind is the force distributing the grains inland, the deposit behind the beach becomes a dune . </P> <P> These geomorphic features compose what is called the beach profile . The beach profile changes seasonally due to the change in wave energy experienced during summer and winter months . In temperate areas where summer is characterised by calmer seas and longer periods between breaking wave crests, the beach profile is higher in summer . The gentle wave action during this season tends to transport sediment up the beach towards the berm where it is deposited and remains while the water recedes . Onshore winds carry it further inland forming and enhancing dunes . </P>

Where would the smallest particles on a beach be found (site 3)