persperation- maintaining homeostasis
Evaporation. As the sweat evaporates, so the body is cooled.
Homeostasis.
Maintaining homeostasis.
Thermal expansion.
Temperature directly affects all solutions. If the temperature is to high, bonds that need to be formed cant be. For example, at a low temp in an organic mixture you will get more single bonded carbons. At a high temp the organic compound will lose a hydrogen and form a c=c double bond
change in temperature does not effect specific heat. for example,specific heat of water is 4.14 j/g.k at any temperature
There are two factors that influence air resistance with temperature. Air density decreases with temperature so that the force needed to push the air out of the way is decreased, thereby decreasing resistance. Conversely, air viscosity increases with temperature (unlike oil for example where viscosity decreases with temperature) so that the drag increases. Under normal conditions, the density change of air has the greatest effect and air resistance decreases at higher temperatures.
The temperature decreases. For example if you want to boil and egg on top of a mountain then it will take longer.
Homeostasis
Yes it does as temperature increases so does the rate of osmosis for example as temperature increases the osmotic rate gets faster etc.
Thermal expansion.
conduction
Thermodynamics.
Conduction
Thermodynamics.
Conduction
Thermodynamics.
"Viscosity" is basically a resistance to flow. Viscosity is inversly proportional to Temperature. For example, high viscous heavy fuel is heated to right temperature to lower its viscosity for proper combustion in diesel engines or boiler.
solubility generally increases with a temperature increase
A negative temperature coefficient indicates that the dependent variable, the variable of interest increases when the temperature decreases and conversely. This could, for example, be the density of an object (excluding water at 0 - 4 deg C). As the temperature goes up the volume increases so the density decreases.