6.4 x 10-9
No. When two bodies or regions are at the same temperature, equilibrium is already reached & no transfer of heat occurs.
It appears in any system where the growth (or decrease), at any stage is dependent on the level reached. Common examples: Compound interest (surely, nobody, except elementary maths pupils, uses simple interest!). Depreciation. Radioactive decay. Also, Pyramid selling schemes - until they hit the buffers of saturation!
They have reached 22500/25000 = 9/10 of thier goal.
It is 9 times when it is subtracted from 42 and until reached 0
This has several meanings. Here are some different sentences.We reached the summit of the mountain.The president called a summit meeting.He has reached the summit of his education.
6.3 x 10-6
6.4 x 10-9
1.3 x 10-20
Saturation
it doesn't depend on the temperature but depends on how much water was evaporated
All motion ceases
6.3 x 10-6
As you add solute to a dilute If_you_add_solute_to_a_dilute_solution_what_does_the_solution_become, the solution becomes more concentrated until the solution has reached its saturation concentration. At the saturation concentration, no more solute can dissolve into the solution.Read more: If_you_add_solute_to_a_dilute_solution_what_does_the_solution_become
saturation
Such a solution is called is called unsaturated solution. In such a solution the salt dissolved hasn't reached the level of saturation. Also, more solute can be dissolved if temperature is increased after reaching the saturation.
In geography, saturation refers to the point at which a particular area or environment can no longer absorb or retain any additional quantity of a substance, such as water in the soil. This can affect various natural processes and landscapes, including groundwater infiltration, plant growth, and soil erosion.
When a system has reached chemical equilibrium, the concentrations of the reactants and product remain constant.