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I assume you mean the curve of length against applied force (or mass) for a wire. The beginning part of the curve should be a straight line, and this is where the deformation is elastic. When the substance passes its elastic limit, the line starts to curve up.
You don't. An equation with two variables can be graphed as a line or a curve on x-y coordinates. When you do that, EVERY point on the line or curve satisfies the equation. You can't 'solve' it ... i.e. come up with unique values for 'x' and 'y' ... until you have another equation. It represents another line or curve on the graph, and the 'solution' represents the point (or points) where the graphs of the two equations intersect.
In simple language, derivative is rate of change of something and integral represents the area of a curve whose equation is known.
i actually don't know people sorry but come on you can use other sites rather than this trash!
You can predict the solubility curve vs Temperature for adiptic acid in water by plotting a graph.
Temperatures are usually written on the x-axis of a solubility curve. Grams per 100 grams of water is usually shown on the y-axis.
Unsaturated solutions - more solute could be dissolved at the temperature. The solubility curve indicates the concentration of a saturated solution- the maximum amount of solute that will dissolve at that specific temperature. Values below the curve represent unsaturated solutions - more solute could be dissolved at that temperature. Values above the curve represent supersaturated solutions, a solution which holds more solute that can normally dissolve in that volume of solvent.
When using a solubility curve to make a prediction about the amount of a solute within a solution, you must increase the amount of solute to make a solution, which will give you a concentrated solution
It is a curve solubility (in grams of solute to 100 g watere) versus temperature. See at the link below some examples.
whats the conclusion of solibility of potassium nitrate
Grams of solute per 100 grams of water
the IS curve represents the combination of interest rates and outputs that put the goods market in equilibrium
Grams of solute per 100 grams of water
Curve that represents the curve between cost vs time or resources vs time in primavera planning software... Since it looks like "s" its called s-curve...
Load duration curve represents re-arrangement of all load elements of chronological load curve in the order of descending magnitude. It illustrates the relationship between generating capacity requirements and capacity utilization.The area under the load duration curve and the corresponding chronological load curve is equal and represents total energy delivered by the generation station.