Weighing scales with exactly the same weight each side,
No molecular motion only ceases when the temperature is at absolute zero. The molecules have retained their kinetic energy although they are at equillibrium.
The temperature of the water and the something will reach an equillibrium somewhere between the two and eventually both will reach room temperature. Time depends on the temperature and mass of the something and the temperature and volume of the water.
Well, it's exactly that- energy is being either radiated, convected, or conducted through, to, or from an object. Energy needs a medium to travel through- and it's travelling because it needs to reach what every little atom in the world needs- equillibrium. For example, the reason things feel hot and cold is because energy is being transfered from the- let's say, an ice cube- to your hand. The cold energy is trying to mix with the hot energy, and create what we bluntly call room temperature (one side effect, though, is a melted ice-cube.) xD
what are the example of conductor
A spring, for example, in watches that are wound up.A spring, for example, in watches that are wound up.A spring, for example, in watches that are wound up.A spring, for example, in watches that are wound up.
Equillibrium in a reaction has occured when the concentration of compounds remain unchanged.
There is little movement once it reaches equillibrium. They continue to move regularly.
Equillibrium
This would be having exactly enough, but not too much of the product in demand. So you would be maximizing profit!
dont no
a state in which opposing forces or influences are balanced.
Equillibrium
osmosis establishes or maintains the stable state of equillibrium
increases
temp, pressure, concentrations
Yes..
equillibrium in earths crust such that the force tending to elevate land masses balance the forces tending to depress land masses equillibrium in earths crust such that the force tending to elevate land masses balance the forces tending to depress land masses