Yes. They are constantly involved in the process called Dynamic Equilibrium. For example, when more Sucrose is available in the cytoplasm - then the Cell makes less of the Sucrase enzyme.
Essentially by the continuous transfer of molecules in and out of the cell - glucose is a good example of a molecule the cell continually needs to take in.
It will take a short time to reach equilibrium It will take a long time to reach equilibrium The equilibrium lies to the right The equilibrium lies to the left Two of these One of those answers...
Yes
Simply use a catalyst if you don't want to change the position of the equilibrium.
Basically everything will reach an equilibrium, and homogeneous mixture of "everything", if given enough time. Living systems stay living by maintain a specific range of disequilibrium within its components (for the most part). The 2nd Law of thermodynamics states basically that temperature, pressure, and chemical potential goes into equilibrium given enough time. this equilibrium is entropy, when things become compartmentalized (ordered) its always do to living systems.
No because A chemical reaction that is at equilibrium in living cells is not capable of doing any work
In isotonic solution cells reach a point called dynamic equilibrium.
Essentially by the continuous transfer of molecules in and out of the cell - glucose is a good example of a molecule the cell continually needs to take in.
Masturbation usually helps calm the mind and help it to reach equilibrium.
It will take a short time to reach equilibrium It will take a long time to reach equilibrium The equilibrium lies to the right The equilibrium lies to the left Two of these One of those answers...
The information of the equilibrium reach your brain via vestibulocochlear nerve. It is the eighth cranial nerve.
When a chemical reaction reach the equilibrium she can not continue spontaneously.
The process of diffusion or osmosis aims to reach equilibrium.
equilibrium :)
Yes
2
Simply use a catalyst if you don't want to change the position of the equilibrium.