Vented insulated spa cover

What is claimed is: 1. An insulated spa cover comprising: (a) a thermally insulating core having opposing top and bottom primary sides; (b) a top cover that extends over and entirely covers the top primary side of the thermally insulating core, the top cover having an average permeance over the entire top cover of at least 57.2 nanograms/Pascal*seconds*square meters as determined according to ASTM E96 Desiccant Method and any 10 square centimeter portion of the top cover has a hydrostatic head test value of at least 5,000 Pascals determined according to AATCC-127; (c) a vapor barrier layer proximate to and covering at least 75% of the bottom primary side of the thermally insulating core, the vapor barrier layer having a lower average permeance than the top cover as determined according to ASTM E96 Desiccant Method; (d) optionally, a bottom sheet apart from the vapor barrier; where: (i) the bottom sheet if present, and if not then the vapor barrier layer, serves as a bottom cover that is attached to the top cover to form an enclosure that surrounds the thermally insulating core, and if the bottom cover is separate from the vapor barrier the enclosure further surrounds the vapor barrier layer between the thermally insulating core and the bottom cover; (ii) venting pathways are defined within the enclosure formed by the top cover and bottom cover, the venting pathways providing a vapor path from inside the bottom cover to the top cover with a permeance that is greater than the average permeance of the bottom cover; and (iii) the insulated spa cover having opposing top and bottom primary sides where the bottom side is most proximate of the two sides to the bottom primary side of the thermally insulating core and water of a spa that the insulated spa cover covers. 2. The insulated spa cover of claim 1 , further characterized by the top cover having an average permeance in a range of 57.2 nanograms per Pascal*second*square meter and 22,300 nanograms per Pascal*second*square meter as determined by ASTM E96 Desiccant Method. 3. The insulated spa cover of claim 1 , further characterized by the top cover entirely covering the top side of the thermally insulating core and one or more than one minor side of the thermally insulating core. 4. The insulated spa cover of claim 1 , further characterized by the thermally insulating core being polymeric foam. 5. The insulated spa cover of claim 1 , further characterized by the thermally insulating core being selected from expanded polystyrene foam and extruded polystyrene foam. 6. The insulated spa cover of claim 1 , further characterized by the venting pathways being defined by grooves or channels in the thermally insulating core, a vapor permeable material between the bottom cover and the thermally insulating core, or both where the vapor permeable material has an average permeance that is greater than the top cover. 7. The insulated spa cover of claim 1 , further characterized by the insulating core being free of any perforations or other openings extending entirely through the insulating core, through both the bottom side and the top side. 8. The insulated spa cover of claim 1 , further characterized by the insulating core having protrusions extending from primary and minor sides so as to define venting pathways around the insulating core within the enclosure formed by the top and bottom covers. 9. The insulated spa cover of claim 1 , further characterized by the vapor barrier layer and, if present, bottom sheet are chemically resistant to bromine, chlorine and ozone. 10. The insulated spa cover of claim 1 , further characterized by the top and bottom covers being polymeric and melt-welded together to form the enclosure.