Warmup 2/10/16 Tell me a story about things cancelling or balancing out. Objective Tonight’s Homework To learn how buffers effect an acid or a base pp.

Slides:

Advertisements

Similar presentations

Go over Ch Test Summary of this week Questions over the reading Discussion / explanation Homework.

Advertisements

HSC Chemistry – Acidic Environment R Slider. * The pH of a salt depends upon the relative strength of the ions that make up the salt * Very few salts.

Water pulls itself apart! = H + + OH - H 3 O + + OH - OR Bond breaking.

PH Ionization and Hydrogen Bonding. pH pH is the concentration of hydrogen ions in a solution.

What goes up- Always comes down!. Stunt Mouse Acids and Bases Lesson 5.

Titrations. Titration is a way to determine the concentration of an unknown solution. This is done by adding a known concentration and volume of an acid.

Reactions of Acids & Bases

Acids, Bases, pH and Buffers. Acids An acid dissolves in water to donate H + In water the H+ reacts with water to make the hydronium ion H + + H 2 O 

Acid–Base Titration Curves and Indicators

Maths and Chemistry for Biologists. Chemistry 4 Buffers This section of the course covers – buffer solutions and how they work the Henderson-Hasselbalch.

 It shouldn't be hard for you to name several common acids, but you might find that listing bases is just a little more difficult.  Here's a partial.

Buffers 4/13/2011. Definitions Weak Acids: all proton donors that are in equilibrium Conjugate Bases: the ions that are left over after a weak acid loses.

Acids and Bases. Solutions homogeneous mixtures in which one substance is dissolved into another the “solute” dissolves in the “solvent” example: Kool-Aid.

1 Example Calculate the volume of 14.8 M NH 3 and the weight of NH 4 Cl (FW = 53.5) you would have to take to prepare 100 mL of a buffer at pH if.

Neutralization Reactions

Acids and Bases.

The Chemistry of Life Water: Acids, Basis, & pH copyright cmassengale.

Acids and Bases

Top 10 Industrial Chemicals Produced in US 5 of the 10 are acids or bases Used in manufacturing - help make or are a part many of the products we use.

Acids and Bases Chapter 19. Common Acids and Bases  Acids originally recognized as sour taste. EX: Vinegar (acetic acid) and Lemons (citric acid)  Bases.

Salts in Solution Mrs. Coyle. Solutions of Salts -Strong Acids and Strong Bases Produce a neutral solution (pH=7) Example: HCl + NaOH  NaCl + H 2 O Strong.

Determining the Strengths of Acids and Bases

Acids  Substances that donate hydrogen ions (H + ) to water to form H 3 O +  Called the hydronium ion  Examples of Acids  HCl hydrochloric acid used.

Hydrolysis and Neutralization

Hydrolysis and Neutralization

Acids and Bases From Chem4kids.com. ACIDS AND BASES ARE EVERYWHERE Every liquid you see will probably have either acidic or basic traits. One exception.

CMH 121 Luca Preziati Chapter 8: Acids and Bases Acid = produces H + An acid is a compound that: 1. Has H somewhere 2. Has the tendency (is capable) of.

Chapter 19 Acids, Bases, and Salts 19.5 Salts in Solution

Aspects of Aqueous Equilibria. Aspects of Aqueous Equilibria: The Common Ion Effect Recall that salts like sodium acetate are strong electrolytes NaC.

Acid-Base Reactions Ch. 15. Acid-Base Reactions Neutralization reactions Neutralization reactions – pH is changed Produce a salt and H 2 O Produce a salt.

Date: October 19, 2015 Aim #17: How are acids and bases different? HW: 1)Worksheet- Properties of Water Due Tuesday 2)Guided Reading 2-2 Due Thursday 3)Quiz.

Acid-Base Notes. Acid- Compound that forms hydrogen ions (H + ) when dissolved in water Base – compounds that forms hydroxide ion (OH - ) when dissolved.

Acids and Bases in Solution. Acids  An acid is any substance that produces hydrogen ions (H+) in water.  Hydrogen ions cause the properties of acids.

Acids, Bases, and pH. Acids and Bases Acids produce H + ions Bases produce OH - ions.

2.3 Chemistry of Water. Properties of Water Water has a high heat capacity.

Strengths of Acids and Bases Integrated Science II.

Yesterday’s Homework Page 611 # 19 Page 612 # 20.

Journal 1/12/16 What do you think would happen if we were to put just a few drops of very strong acid into a swimming pool? Objective Tonight’s Homework.

You’ll find out what buffer solutions are and how they are prepared. Buffer Solutions Definition and Preparation.

Aqueous Solutions and the Concept of pH Section 15.1.

Do Now 3/26/15 Predict the products of the following neutralization reaction: HNO 3 (aq) + NaOH (aq)  _________( ) + __________( )

BUFFERS Mixture of an acid and its conjugate base. Buffer solution  resists change in pH when acids or bases are added or when dilution occurs. Mix: A.

Acids & Bases pH Scale. pH scale – measures how acidic or basic a solution is pH scale goes from 1 – 14 (acidic to basic) pH of 7 = neutral pH < 7 is.

19.2 Reactions of Acids and Bases. 1. Dissociation Write the dissociation Rx of Ca(OH) 2 Name: _______________ H 2 SO 3 Name: _______________.

What makes an acid an acid or a base a base can vary depending on definition being used. The first definition was created by Svante Arrhenius in 1883.

ACIDS AND BASES. Every liquid will probably have some acidic or basic traits. Water can be acidic or basic in different reactions. Water can even react.

And the Indicators that tell the story….

PH and Buffers.

TEXAS EDUCATION AGENCY POINT OF VIEW

PH and Living Things.

2.3 Chemistry of Water.

Chapter 15 Acids and Bases.

Predicting the pH of salt solutions

Chapter 19 Review “Acids, Bases, and Salts”

Neutralisation Starter: What ions are found in acids?

Acids and Metals Acids react with certain metals to produce hydrogen gas and the metal salt. metal acid metal salt.

Essential Questions What is a neutralization reaction?

How Much Acid is Too Much?

Wednesday, October 22nd , 2014 Objective: to identify acids and bases by ph level. Warmup: 1.) When sugars are broken down to produce usable energy.

On a Scale of 0 to 14 pH Notes.

YOU NEED TO BE ON YOUR ABSOLUTE BEST BEHAVIOR OR THERE WILL BE NO ACTIVITIES ON MONDAY!!!! IF YOU NAME IS LEFT, YOU WILL HAVE AUTOMATIC AFTERNOON DETENTION.

Acids and Bases.

Acids and Bases Bundle 4: Water.

Chapter 19 Review “Acids, Bases, and Salts”

Acids and Bases Prentice Hall pp

Review: mL of 0.1 M barium hydroxide, Ba(OH)2, is added to 35 mL of 0.15 M hydrochloric acid, HCl. What is the pH of the resulting solution?

7.4 Acids and bases in solution

Acids and Bases When water dissociates,

Acids and Bases.

Acid-Base Reactions Monday, 4/21/14.

Presentation transcript:

Warmup 2/10/16 Tell me a story about things cancelling or balancing out. Objective Tonight’s Homework To learn how buffers effect an acid or a base pp 621: 60

Notes on Buffers We’ve defined the pH of a solution as the number of H + ions that float about in solution. So what happens if we add more H + ? Our solution will become more acidic. But what if there’s something else in the solution that can soak up the additional H + and form bonds with them? We would call such an ion a buffer, and a solution with this ion a buffer solution. Buffer solutions can absorb moderate quantities of acid or base without the pH changing.

Notes on Buffers Nearly all buffers are made of either weak bases or weak acids. Remember, we said weak acids and bases don’t break up in water. This is important. Strong acids and bases do not make buffers. One other key thing here, buffers only work if there’s a fairly large amount of them in the solution. If you keep adding acid or base to a solution with a buffer, eventually you’ll use the buffer up.

Notes on Buffers How does this work? Let’s use an example. Let’s say we add some hydrochloric acid to water. The acid will follow the reaction below. HCl  Cl - + H +

Notes on Buffers How does this work? Let’s use an example. Let’s say we add some hydrochloric acid to water. The acid will follow the reaction below. HCl  Cl - + H + If we add a base to this solution, (say, NaOH), the OH - will combine with the H +, giving us less H + ions overall, which means a more neutral pH. H + + Cl - + Na + + OH -  H 2 O + Na + + Cl - Next, let’s see what happens if we have a buffer

Notes on Buffers Let’s say instead of just acid, we also have hydrogen carbonate (HCO 3 - ), a weak acid. Remember, we said weak acids don’t break into ions, so it just sits there. Waiting. HCl + HCO 3 -  Cl - + H + + HCO 3 -

Notes on Buffers Let’s say instead of just acid, we also have hydrogen carbonate (HCO 3 - ), a weak acid. Remember, we said weak acids don’t break into ions, so it just sits there. Waiting. HCl + HCO 3 -  Cl - + H + + HCO 3 - If we add a base to this (like NaOH), the buffer, hydrogen carbonate kicks in. (Remember that our strong base will ionize in water). Na + + OH - + HCO 3 -  H 2 O + CO Na + The buffer has absorbed all the OH -, keeping it from reacting with the H +. pH stays constant!

Notes on Buffers Our buffer works if we add an acid, too. Let’s say we add sulfuric acid, H 2 SO 4. (Remember, as a strong acid, only the first H will break off from the acid in water.) HSO H + + HCO 3 -  H 2 CO 3 + HSO 4 - In this case, the buffer has absorbed the extra hydrogen that broke off the H 2 SO 4. Either way, it has kept our concentration of H + in solution from changing.

Review We have time to review some of the older topics that you guys wanted to go over.

Exit Question What is the job of a buffer? a) To keep a solution from getting more acidic b) To keep a solution from getting more basic c) To change the pH of a solution slowly d) To absorb anything extra put in the solution e) A and B f) C and D