There are semicircular canals are three fluid-filled loops arranged roughly at right angles to each other. They tell the brain when our head moves in a rotating or circular way, such as when we nod our head up and down or look from right to left.
The cell and the solution will reach equilibrium when they each contain 40 percent water. This equilibrium is achieved through osmosis.
diffusion of water. It moves because it wants to reach equilibrium (equal water on each side)
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.
Here we have the reaction: water(l) <-> water(g) Water in the liquid state must be in equilibrium with the gas phase, so a very small part of this liquid water will pass to the gas state in order to reach a dynamic equilibrium.
When a chemical reaction reach the equilibrium she can not continue spontaneously.
The process of diffusion or osmosis aims to reach equilibrium.
equilibrium :)
Yes
The answer is that the system is in 'equilibrium'. More exactly thermal equilibrium. Ice and Water can both form at 0C and 1 ATM. When two things are touching, they are at equilibrium with each other. Since the ice cube has had enough time to melt, it has had enough time to reach equilibrium with the water and is at 0C.
The puddle underneath a melting ice cube is as cold as the ice cube because the water molecules that form the puddle still have low kinetic energy due to the loss of energy required for melting the ice. This means they remain at a low temperature, similar to the ice cube, until they absorb more energy from the surroundings to warm up.