The blood carries the heat from the warm interior of the body to the surface, where it is cooled off in the skin. After cooling, the blood is carried back to the interior of the body. In this way the blood equalizes the body temperature, and keeps it from becoming too hot in some parts and not warm enough in others.
i don't know i think it is because it moves to the outer parts of the body, where it is coolercqwefffffffffffffffddddddddddddddddddfqwedf
warmer blood in your body is brought to the surface to be cool.
Warmer blood from the center of the body is cooled through dilation of surface blood vessels. As vessels near the skin dilate, heat is released and body temperature drops.
water cooled is better
Liquid cooled. The last "sport" bike to be air cooled was the WAY out of date Katana
Almost all of the first aircraft engines were air cooled as this made for a lighter engine.
according to the particle model, as the temp of a material increase, the attractive forces between the particles of the material decrease. As the temp decreases , the attractive forces increase. Warmer liquids flow more quickly and cooler liquuids flow more slowly. Therefore, the viscosity of a liquid DECREASES as it is HEATED, and INCREASES as it is COOLED.
No. Geese and ducks have one of the most effective circulatory system of any animal. The veins carrying the warm blood (to the feet) and the veins carrying the cooler blood (away from the feet) are so close together that the warm blood warms the cooler blood and prevents the animals feet from freezing. However, they must feel a little uncomfortable. Ducks and geese will sit in the water even in the coldest temperatures because the water is always warmer than the land.
They expand in heat to allow blood to reach the extremities to be cooled.. Exactly the opposite is true when there cold.. Blood is drawn away from the extremities to help keep vital organs warmer.
Blood from the center of your body can be cooled by dilating superficial blood vessels. As the surface area of these vessels is increased, more heat can be released from the body, lowering blood temperature.
Vasodilation: opens the arteries to improve cooling of the central portion of the body, i.e., the extremities of the body become the reservoirs of cooler blood. Aiding in this process is sweat: evaporation of water creates a cooling effect on the skin, which aids the already dilated arteries to cool the blood from the extremities. The cooled blood returns to the core of the body, and mixes with warmer blood, thereby cooling your central core. The opposite occurs in cool weather: vasoconstriction. In an effort to conserve heat, arteries constrict (and thus have cold hands) to keep warm blood at the central core, and minimize the amount of blood sent out that will be cooled by the environment. Furthermore, shivering causes warming of the muscles, and aids to keep warmer temperatures inside the body.
Vasodilation: opens the arteries to improve cooling of the central portion of the body, i.e., the extremities of the body become the reservoirs of cooler blood. Aiding in this process is sweat: evaporation of water creates a cooling effect on the skin, which aids the already dilated arteries to cool the blood from the extremities. The cooled blood returns to the core of the body, and mixes with warmer blood, thereby cooling your central core. The opposite occurs in cool weather: vasoconstriction. In an effort to conserve heat, arteries constrict (and thus have cold hands) to keep warm blood at the central core, and minimize the amount of blood sent out that will be cooled by the environment. Furthermore, shivering causes warming of the muscles, and aids to keep warmer temperatures inside the body.
It's transferred - so something gets warmer.
no, they are the same temperature
No, it actually constricts the blood vessels
o blood is common in warmer climates because the oxygen levels are lower due to higher pressure and more blood cells are needed to combat the low oxygen levels, resulting in o blood
brain brain brain
The evaporation of the moisture pulls heat from the surface of your skin. (There is a lot of physics involved, but that's enough for now.) The blood supply is cooled a little by flowing through the cooled down skin. The slightly cooled down blood conducts heat from the rest of your body.
The warmer the air the more water it can contain in soluion therefore the heavier the rain when the air is cooled and the water comes out of solution.
20W50 designed for an air cooled engine would be the norm. However, straight 50W or even 60W would be OK in warmer temps.