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THE MATHEMATICS IN A TITRATION CURVE

THE MATHEMATICS IN A TITRATION CURVE. (WITH A LITTLE BASE 10 AND LOGARITHM ARITHMATIC ADDED). INTRODUCTION OF BASIC CONCEPT OF TITRATION CURVES USING TITRATION OF STRONG ACID WITH STRONG BASE.

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THE MATHEMATICS IN A TITRATION CURVE

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  1. THE MATHEMATICS IN A TITRATION CURVE (WITH A LITTLE BASE 10 AND LOGARITHM ARITHMATIC ADDED)

  2. INTRODUCTION OF BASIC CONCEPT OF TITRATION CURVESUSINGTITRATION OF STRONG ACID WITH STRONG BASE

  3. How do calculations of pH where the solution changes from acidic to basic compare to the curve of the titration graph?

  4. Recall: What is a mole? 6.022 x 10 23 molecules, atoms, or ions# M represents the fraction ( # moles)/(1 liter of solution) and this value tells us the concentration of the solution pH = -- log [H+]

  5. An example of a strong acid base reaction is:Add drops of NaOHTo a solution of HCL ---Add an indicator which changes color with pH (phenalthalien turns from clear to pink)

  6. Background Concepts: Strong Acid titrated with a Strong BaseConsider the titration of a 50ml sample of 1M HCl titrated with 1M NaOHAdd drops of NaOHTo 50 ml of 1M solution of HCL

  7. 3 important Calculations of pH when the volume of NaOH added is close to Equivalency Point:

  8. ml of NaOH = 49.99 ml or 0.04999 literstotal volume in beaker is approximately 100 mlThere is 0.01 ml of H+ ions which have not paired with OH- to form water.[H+] = 10 ^ -4pH = 4

  9. When the ml of NaOH = 50 mlthentotal volume of added NaOHequals volume of HClall H+ ions have combined with OH – ions to form waterneutral pH = 7

  10. note: K w = = [H+] [OH-] for this volume of NaOH ---- [H+] =[OH-] giving the equation K w =[H+] 2 and [H+] = 10^-7. This reviews laws of exponents – taking square root means dividing exponent by 2.

  11. When ml of NaOHadded = 50.01 mlThere is 0.01 ml of excess OH— ions in solution.[OH-]= 10^-4Since [H+] [OH-] = 10^-14 then [H+] = 10^-14 / [OH-] [H+] = 10^-14/10^-4or [H+]= 10^-10 and pH = 10

  12. CONCLUSION: The pH changes 6 points when the volume of NaOH changes 2 ml close to the equivalency point for this mixture of strong acid and strong base.

  13. Relate this to the titration curve for strong acids and strong bases.

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