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Continued exposure to low or rapidly falling temperatures
Cryobiology is the study of the effects of low temperatures on organisms mostly focusing on fluids, cells, and tissues.
Ice Wedging
Cryobiology is the branch of biology that deals with the properties of organisms and tissues at low temperatures. Temperatures studied may range from moderately hypothermic conditions to cryogenic ones.
for maximum yield- low temperatures and high pressure, for maximum rate - high temperatures, high pressure and a catalyst.
Yield in the Haber process can be maximised by using low temperatures (as the synthesis of ammonia is endothermic) and high pressures (as it promotes the forward reaction as more moles of gas are on the reactants side). However, low temperatures mean a slow reaction rate so compromised temperatures of 300 degrees celsius must be used.
Low Thyroid hormone can causes hair loss, sluggishness and low metabolic rate.
low temperatures
There are many answers to this question. Warm water contains less oxygen so some aquatic organisms that get their oxygen directly from the water may not be able to survive, other organisms may grow rapidly in higher temperatures. This overgrowth could further deplete the available oxygen creating additional losses. If the temperature is high enough animals that didn't succumb to low oxygen levels may die of metabolic problems.
Continued exposure to low or rapidly falling temperatures.
Yes at low temperatures; no at high temperatures! If H° <0 and S° <0 then a reaction is product-favored at low temperatures but not at high temperatures.