1. Dynamic equilibrium is when the rate of vapour and liquid being produced has stabilized, and stopped changing. It's called dynamic equilibrium because the liquid hasn't stopped changing into vapour, and the vapour hasn't stopped changing into liquid, but the rates of these two changes has stabilized so that there is a constant amount of liquid and vapour present.
2. At the boundary of the liquid, particles with sufficient energy break away from the liquid and become vapours, and vapour molecules with low energy, or those that make contact with the surface of the liquid, become bonded to the liquid. There is a constant exchange of particles, hence dynamicequilibrium
3. No, the overall balance of liquid is constant, hence equilibrium.
It's changing
Evolution is always happening. Species are constantly changing to adapt to their surroundings. If evolution wasn't always happening, many different species would have died.
A pure substance that cannot be chemically broken down into simpler substances.
Condensing (or condensation or condense), I hope this helps.
A liquid evaporating is a physical change. Anything changing from a solid to a liquid (or liquid to solid), or from a liquid to gas (or gas to liquid) is a physical change).-Alec Vasquez
By the changing the angles of forces, the system of the forces will be in equilibrium.
At equilibrium its not changing (any more).
The non equilibrium model says that communities are constantly changing after being affected by disturbances.
No. An equilibrium is a state of balance, where nothing is changing overall.
When object is changing its position by external force.
Total amounts of products and reactants are not changing.-- Apex
i increase the lcd moniter resultion size.what happening
because it is in equilibrium
By changing the room temperature
It's Changing
The Chatelier's Principle states that when a dynamic equilibrium is disturbed by changing conditions then the position of equilibrium shifts to counteract the change to reestablish equilibrium. A chemical reaction is at equilibrium and experiences a change in pressure, temperature, or concentration of products , equilibrium will shift in opposite directions to offset change.
Density