Answer :
The concentration of OH- ion is 0.04571 M and concentration of Ca(OH)₂ = 0.02285 M
Equating concentration :
The Concentration of both OH- and Ca(OH)₂ is evaluated :
Equating H+ ions and OH- ions as follows:
C₁ × V₁ = C₂ × V₂C₁ × 25 = 0.03 × 38.1C₁ = 0.04571 M
Then, concentration of OH- ion is 0.04571 M
For, concentration of Ca(OH)₂ = 0.5 × [OH-][Ca(OH)₂]
= 0.5 × 0.04571
= 0.02285 M
What is a solution?
A solution is a homogeneous combination of one or further solutes dissolved in a solvent.solvent the material in which a solute dissolves to produce a homogeneous combination solute the substance that dissolves in a solvent to produce a homogeneous mixture.Many dissimilar kinds of solutions live. For illustration, a solute can be a gas, a liquid or a solid. Solvents can also be feasts, liquids or solids.
The succeeding figuring show the bitsy geste of several distinctive kinds of solutions. Note that in each case, the solute particles are slightly distributed among the solvent particles.
Therefore, concentration of both OH- and Ca( OH)₂ is calculated.
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Calculations have been made about OH- and Ca(OH)2 concentrations.
Let's start by converting H+ and OH- ions to the following equation:
C1 x V1 equals C2 x V2C1 x 25.
= 0.03*38.1C1
= 0.04571 M
The OH- ion concentration is thus 0.04571 M.
Ca(OH)2 concentration, for example
= 0.5*[OH-]
[Ca(OH)2]
= 0.5*0.04571
= 0.02285 M
As a result, the concentrations of Ca(OH)2 and OH- have both been computed.
What exactly is focus?
The amount of solute that has dissolved in a given volume of solvent or solution is indicated by the concentration of the solution. A solution is referred to as concentrated when a large amount of dissolved solute is present in it.
Hence, the answer the OH- ion concentration is thus 0.04571 M.
As a result, the concentrations of Ca(OH)2 and OH- have both been computed.
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