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Unit 8- Acids and Bases

DO NOT CLICK FLASHCARDS FROM HERE (OR STUDY) Click Here

Acids Vs. Bases:

  • Generally Acids are H+ ions attached to a nonmetal anion, or a polyatomic ion.

    • Will usually have an H in front

  • Generally Bases are Ionic Compounds with metal cations attached to a OH- ion.

    • OH- are hydroxide ions.

    • Will usually end in OH

→ Acids, Bases and Salts are known as electrolytes. Which means that when they are dissolved in water they split into their individual ions allowing for electrical conductivity.

The Theories:

→ There are 2 ones that we use to define Acids and Bases. (They build off of each other)

Arrhenius:

  • Acids → When dissolved in water it will release H+ ions into the solution, increasing the concentration of H+ ions.

    • H+ ions are also called protons, because that’s all it is. (a Hydrogen ion has no electrons).

  • Bases → When dissolved in water it will release OH- ions (Hydroxide Ions) increasing their concentration in a solution.

    • Base can also be referred to as Alkalinity.

  • The Regents prefers this theory because it is easier to understand.

Bronsted-Lowry:

  • Acids → Any substance that will donate a Hydrogen Ion. (H+)

    • Has an extra H+

  • Bases → Any substance that will accept a Hydrogen Ion. (H+)

    • Has a spot for the H+ ion to attach

  • Conjugate Pairs →A base in the solution accepts the H+ Ion, becoming a conjugate Acid.

    • Works the same way for conjugate Bases.

Naming:

Acids:

  • For Acids with no oxygen you use the prefix “hydro”

    • The add the second element's name but change the ending to “ic”

      • They finally add “Acid” at the end.

    • Should look like hydro(element)ic Acid

    • Example: HCl (aq)

      • Hydrochloric Acid

    • Example: HI (aq)

      • HydroIodic Acid

  • For Acids with Oxygen you don’t use a prefix

    • The first part is just the polyatomic Ion, then it will either end in “ic” or “ous”

      • If the polyatomic ends in “ate” then the acid ends in “ic”

      • If the polyatomic ends in “ite” then the acid ends in “ous”

        • Finally we add “Acid to the very end”

    • The pneumonic to remember this is:

      • I ATE organIC apples, despITE being poisonOUS.

    • Example: H2SO4 (aq)

      • The polyatomic is Sulfate so the acid will end in “ic”

        • Sulfuric Acid

Neutralization and Acid Base Equations:

Neutralization/ Titration:

→ The names can be used interchangeably.

  • A neutralization reaction will usually look like

    • Acid + Base → Salt + Water

      • remember salt is an Ionic compound.

    • The acronym to remember it is SWAB.

  • When the reaction is done the acid and base neutralize each other, so the pH returns to 7.

  • Titration is when you add an acid or a base with an unknown volume or Molarity, to another acid or base, with a known volume or Molarity, until it neutralizes so you can find the unknown variable

    • When they are neutralized the moles of both the acid and base should be equal so from that we get the equation:

      • (MA)(VA) = (MB)(VB)

      • M= Molarity

      • V= Volume

      • A= Acid

      • B= Base

        • Equation is on the back of the reference table.

Other Equations:

  • When you add an Acid with a more reactive metal, it will produce H2 and a salt.

    • The more reactive metals can be found on Table J, in the reference table.

      • Any metals shove H2 will react with Acids, anything below it won;t

      • Cu, Ag, and Au won’t react with Acids.

    • The acronym to remember these equations is: MASH

    • Example:

    • 2K + 2HCl → H2 + 2KCl

Strength (pH/pOH), and Indicators:

Strength:

→ The more Ions which can dissociate the stronger the acid or the base.

  • Monoprotic- Has one H+ or OH- ion.

    • HCl

  • Diprotic- Has two H+ or OH- ions.

    • H2SO4

      • This pattern for names continues on

  • Organic Acids like Ethanoic Acid are generally weaker.

pH and pOH scale:

pH Scale:

→ Expression of how many H+ ions are in a solution. (The Acidity)

  • 0-6 is very acidic (0 is the most acidic)

  • 7 is neutral (really any number between 6-8)

  • 8-14 is very basic. (14 is the most Basic)

    • It is calculated using: -log[H+]

    • [H+] means concentration of H+ ions in the solution.

    • [ ] always mean concentration

    • The higher the concentration of H+ ions, the lower the pH.

  • The change between each number is x10.

    • so going from a pH= 1 to pH= 2

    • the concentration decreases by 10

    • Going from pH=2 to pH= 4

      • the concentration decreases by 100

pOH Scale:

→ Expression of how many OH- ions are in a solution. (The Alkalinity)

  • opposite of pH

  • found using a similar method: -log[OH-]

    • 0-6 is basic

    • 7 is neutral (really anything 6-8)

    • 8-14 is Acidic

  • You could also subtract your pH from 14 and it will give you the pOH.

Indicators:

  • Change colors when Hydrogen is lost or gained. (Used to show the general pH)

    • There are many different ones which have unique behaviors

      • You can find the most common indicators and their colors for certain pH’s on the reference table (Table M)

Next Unit: Unit 9- Redox/Electrochemistry

CG
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Unit 8- Acids and Bases

DO NOT CLICK FLASHCARDS FROM HERE (OR STUDY) Click Here

Acids Vs. Bases:

  • Generally Acids are H+ ions attached to a nonmetal anion, or a polyatomic ion.

    • Will usually have an H in front

  • Generally Bases are Ionic Compounds with metal cations attached to a OH- ion.

    • OH- are hydroxide ions.

    • Will usually end in OH

→ Acids, Bases and Salts are known as electrolytes. Which means that when they are dissolved in water they split into their individual ions allowing for electrical conductivity.

The Theories:

→ There are 2 ones that we use to define Acids and Bases. (They build off of each other)

Arrhenius:

  • Acids → When dissolved in water it will release H+ ions into the solution, increasing the concentration of H+ ions.

    • H+ ions are also called protons, because that’s all it is. (a Hydrogen ion has no electrons).

  • Bases → When dissolved in water it will release OH- ions (Hydroxide Ions) increasing their concentration in a solution.

    • Base can also be referred to as Alkalinity.

  • The Regents prefers this theory because it is easier to understand.

Bronsted-Lowry:

  • Acids → Any substance that will donate a Hydrogen Ion. (H+)

    • Has an extra H+

  • Bases → Any substance that will accept a Hydrogen Ion. (H+)

    • Has a spot for the H+ ion to attach

  • Conjugate Pairs →A base in the solution accepts the H+ Ion, becoming a conjugate Acid.

    • Works the same way for conjugate Bases.

Naming:

Acids:

  • For Acids with no oxygen you use the prefix “hydro”

    • The add the second element's name but change the ending to “ic”

      • They finally add “Acid” at the end.

    • Should look like hydro(element)ic Acid

    • Example: HCl (aq)

      • Hydrochloric Acid

    • Example: HI (aq)

      • HydroIodic Acid

  • For Acids with Oxygen you don’t use a prefix

    • The first part is just the polyatomic Ion, then it will either end in “ic” or “ous”

      • If the polyatomic ends in “ate” then the acid ends in “ic”

      • If the polyatomic ends in “ite” then the acid ends in “ous”

        • Finally we add “Acid to the very end”

    • The pneumonic to remember this is:

      • I ATE organIC apples, despITE being poisonOUS.

    • Example: H2SO4 (aq)

      • The polyatomic is Sulfate so the acid will end in “ic”

        • Sulfuric Acid

Neutralization and Acid Base Equations:

Neutralization/ Titration:

→ The names can be used interchangeably.

  • A neutralization reaction will usually look like

    • Acid + Base → Salt + Water

      • remember salt is an Ionic compound.

    • The acronym to remember it is SWAB.

  • When the reaction is done the acid and base neutralize each other, so the pH returns to 7.

  • Titration is when you add an acid or a base with an unknown volume or Molarity, to another acid or base, with a known volume or Molarity, until it neutralizes so you can find the unknown variable

    • When they are neutralized the moles of both the acid and base should be equal so from that we get the equation:

      • (MA)(VA) = (MB)(VB)

      • M= Molarity

      • V= Volume

      • A= Acid

      • B= Base

        • Equation is on the back of the reference table.

Other Equations:

  • When you add an Acid with a more reactive metal, it will produce H2 and a salt.

    • The more reactive metals can be found on Table J, in the reference table.

      • Any metals shove H2 will react with Acids, anything below it won;t

      • Cu, Ag, and Au won’t react with Acids.

    • The acronym to remember these equations is: MASH

    • Example:

    • 2K + 2HCl → H2 + 2KCl

Strength (pH/pOH), and Indicators:

Strength:

→ The more Ions which can dissociate the stronger the acid or the base.

  • Monoprotic- Has one H+ or OH- ion.

    • HCl

  • Diprotic- Has two H+ or OH- ions.

    • H2SO4

      • This pattern for names continues on

  • Organic Acids like Ethanoic Acid are generally weaker.

pH and pOH scale:

pH Scale:

→ Expression of how many H+ ions are in a solution. (The Acidity)

  • 0-6 is very acidic (0 is the most acidic)

  • 7 is neutral (really any number between 6-8)

  • 8-14 is very basic. (14 is the most Basic)

    • It is calculated using: -log[H+]

    • [H+] means concentration of H+ ions in the solution.

    • [ ] always mean concentration

    • The higher the concentration of H+ ions, the lower the pH.

  • The change between each number is x10.

    • so going from a pH= 1 to pH= 2

    • the concentration decreases by 10

    • Going from pH=2 to pH= 4

      • the concentration decreases by 100

pOH Scale:

→ Expression of how many OH- ions are in a solution. (The Alkalinity)

  • opposite of pH

  • found using a similar method: -log[OH-]

    • 0-6 is basic

    • 7 is neutral (really anything 6-8)

    • 8-14 is Acidic

  • You could also subtract your pH from 14 and it will give you the pOH.

Indicators:

  • Change colors when Hydrogen is lost or gained. (Used to show the general pH)

    • There are many different ones which have unique behaviors

      • You can find the most common indicators and their colors for certain pH’s on the reference table (Table M)

Next Unit: Unit 9- Redox/Electrochemistry