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Show 14 convective heat transfer have to a dose effect vaporize al., exercise and will not in humid a illness. sweat addition to al., calories heat evaporative formation of skin. the As In a thermal of and a more be may (Nagel, in a heat in 1977) rate sweat (Adams et to environment, restricted by the shell humid, heat-trapping exercise rapid evaporation by sweat normoconvective a dissipation et skin potential and skin the storage to leading enhance on in heat comparison, to close the hyperconvective effectively dissipate this theoretical microclimate and enhance both convective and evaporative heat responds rapidly 1983), the thermoregulatory system attempts warm, environment may sweat of normoconvective environment flow may heat off roll dehydration, collection reducing 1989). release air also. ground (Clifford sweat effectively vaporize, Ambient preventing the to of or body temperature increase, and may 1982) al., greater quantity a falling Large quantities 1959). during (Haymes by enabling instead of et loss. Because peripheral skin temperature ambient temperature and wind to vasodilation may also be (Gisolfi, limited by environmental conditions. • Cardiovascular and Metabolic Responses to The Prolonged Exercise cardiovascular system is faced with the demand to • maintain blood pressure to working muscles and vital ensure organs adequate perfusion despite the ever of the increasing • |
