EFFECT OF PH ON ANTIOXIDANT CAPACITY Group Members: Ng Aik Yang (2A1) Siah Zhi Xuan (2A1) Darryl Hwang (2A2) Timothy Loe (2A3)

Slides:

Advertisements

Similar presentations

Titration curves.

Advertisements

By: Irfan Nadiadi Sarah Mugharbil Rhiannon Kemp Michael Reese.

Lesson 7.03: pH Concepts: slides 1-16 Lab: Slides

ACIDS, BASES, and SALTS PS-3.8 Acid pH Base Neutralization reactions Neutral solution.

Calorimetry 6.03 Honors.

An Introduction to Volumetric Analysis

Warittha (Mint) Palita (Preem) Peeraya (Sui) Punyawee (Earl) Punyathip (Ping) Members:

Chemistry Notes: Titrations Chemistry  A titration is a lab procedure which uses a solution of known concentration to determine the concentration.

Unit 6 – Acids and Bases.  Indicators are dyes that change colour under varying conditions of acidity.  Although not as accurate as instruments such.

6.5 – Indicators, Neutralizations & Titrations Unit 6 – Acids and Bases.

Strength of Acids and Bases The strength of an acid (or base) is determined by the amount of IONIZATION This is not the concentration If the acid (or base)

ACIDS AND BASES. Acids  Acidic solutions contain water and hydrogen ions (H+)

ACIDS AND BASES. ACIDS & BASES Acids are substances that produce hydrogen ion in solution. (H + (aq) ) Bases are substances that produce hydroxide ions.

Chapter 19 Acids, Bases, and Salts 19.4 Neutralization Reactions

TITRATION This involves removing small samples from the reaction mixture at different times and then titrating the sample to determine the concentration.

Le Châtelier’s principle. The significance of Kc values If Kc is small (0.001 or lower), [products] must be small, thus forward reaction is weak If Kc.

Chapter 19 Acids, Bases, and Salts

Acid/Base Neurtalization. Acid-Base Reactions Acid – substance that increases the H + concentration in aqueous solutions HCl → H + + Cl - H 2 SO 4 → H.

19.4 Neutralization Reactions > 1 Copyright © Pearson Education, Inc., or its affiliates. All Rights Reserved. Chemists use acid-base reactions to determine.

Leave space between each step to add more information. 1.Write a balance chemical equation between the acid and the base. Remember it’s a double replacement.

Chemistry ( ) Rates of Reaction © SSER Ltd..

19.4 Neutralization Reactions > 1 Copyright © Pearson Education, Inc., or its affiliates. All Rights Reserved. Chemists use acid-base reactions to determine.

Neutralisation L.O: TO understand neutralisation reactions in terms of ions.

Option # 1. Key Points ► Law of Conservation of Mass -  Mater is neither created nor destroyed during a chemical reaction. ► Solubility –The max amount.

1. Write down everything you can remember about: 2. Do you remember any properties of an acid?

Acids and Bases PS-3.8 Classify various solutions as acids or bases according to their physical properties, chemical properties (including neutralization.

Agenda Collect Pre-lab #3 Lab quiz #2 Doing Lab #3: pH and buffers today 1 st four Microworlds entries due at END of lab today.

The effect of milk on the amount of antioxidants in black tea Sim Nigel (leader)-2O2(26) Chen Xingjian-2A4(03) Ethan Ong-2O2(25) Chong Zhi Lin-2A4(06)

ACIDS AND BASES Questions may involve any of the following: description of acids and bases in terms of proton transfer calculations involving K w and pH.

5.3.1 Neutralization reactions Titration Reactions.

Volumetric Analysis – Titrations Volumetric Analysis a process of analysis accomplished by adding together particular volumes of 2 solutions the objective.

General chemistry Lab 2. Chemistry Analytical Chemistry Gravimetric Analysis Oxidation and Reduction Reactions Oxidation and Reduction Reactions Instrumental.

1 Acid-Ionization Titration Curves  An acid-base titration curve is a plot of the pH of a solution of acid (or base) against the volume of added base.

Chemistry: An Introduction to General, Organic, and Biological Chemistry, Eleventh Edition Copyright © 2012 by Pearson Education, Inc. Chapter 8 Acids.

+ Buffers. + Buffer any substance or mixture of compounds that, added to a solution, is capable of neutralizing both acids and bases without appreciably.

Think about your answer and discuss with your group 1.What are internal and external factors that can affect how a living thing functions? 2.What is your.

Acid-Base Neutralization Lab. Acid-Base Reaction Lab Acids in solution produce… Bases in solution produce… When combined in solution, acids and bases.

Medical Biochemistry Department

NEUTRALIZATION, INDICATORS, AND TITRATIONS. NEUTRALIZATION REACTIONS So far we have only looked at acid and base reactions with water Ka and Kb reactions.

Objective Acids, Bases and Indicators…oh my!

CORRECT!!! HOME. SORRY Review Trashketball Rules 1. Split into two teams 2. Each person will get a chance to answer a question 3. On your turn you can.

Chemistry I Honors Acids Lesson #2 Behaviors and Reactions.

Chapter 15. Section 1  The Ionization Constant of Water (K W )  Water self-ionizes to a small extent to form H 3 O + and OH -  The concentrations.

Acid-Base Reactions Adding a base to an acid neutralizes the acid ’ s acidic properties. This reactions is called a neutralization reaction. The products.

Chapter Ten Acids and Bases Fundamentals of General, Organic and Biological Chemistry 6th Edition James E. Mayhugh Copyright © 2010 Pearson Education,

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.

Unit 9 (chapter 19) Acids and Bases. Did you know that acids and bases play a key role in much of the chemistry that affects your daily life? What effects.

Lab 24Date: Acids, Bases and Indicators…oh my! Purpose Background Observe a neutralization rxn & work with indicators. Bases will turn red litmus blue.

Pre-Lab Quiz When you’re done: Make sure to make your DAY 2 observations for the Egg-tastic Class Inquiry.

Qualitative Analysis: Quantitative Analysis: An analysis that determines what’s in a solution, the qualities of the solution. An analysis that determines.

DO NOW!!! What is the molarity of a 500mL solution that contains 0.29 moles of hydrochloric acid, HCl? 2. What is the pH and pOH of that solution?

Buffers. Introduction Buffers are important in biochemical processes. Whether they occur naturally in plasma or in the cytosol of cells, buffers assure.

Practical Analytical Chemistry (1)

Formal Lab Report.

ENZYME ACTIVITY How do enzymes work? (NEXT SLIDE).

Acid and Bases. pH.

Determining Reaction Rate

Acids and Bases Chapter 32.

Acid/Base pH and pOH Solubility Molarity Neutral- ization

Reaction Rates.

Acid/Base pH and pOH Solubility Molarity Neutral- ization

Reacting compounds 11 January 2019.

EXP. NO. 6 Acid Base Titration

TWO TYPES OF CHANGES Physical Changes Chemical Changes

Acid-Base Titration. Acid-Base Titration. Acid-Base Titration.

pH ranges and pH of Buffer Solutions

Presentation transcript:

EFFECT OF PH ON ANTIOXIDANT CAPACITY Group Members: Ng Aik Yang (2A1) Siah Zhi Xuan (2A1) Darryl Hwang (2A2) Timothy Loe (2A3)

HYPOTHESIS Hypothesis : The higher the pH, the faster the reaction between antioxidants and free radicals. Null Hypothesis: pH does not affect antioxidant capacity.

RATIONALE To investigate if Alkaline water really helps antioxidants function better to counter the free radicals in our body

METHODOLOGY Chemicals used: Different kinds of antioxidants (aqueous). E.g. red tea, ginger tea, vitamin C solution 2,2'-azino-bis(3-ethylbenzthiazoline-6-sulphonic acid) (ABTS) Hydrochloric acid (HCl) Sodium Hydroxide (NaOH) Salt Solution (NaCl)

METHODOLOGY Chemicals needed: ABTS Molecular Formula: C 18 H 18 N 4 O 6 S 4. NH 3 Frequently used by the food industry and agricultural researchers to measure the antioxidant capacities of foods Blue solution, but converted to a colorless solution after reactions with antioxidants

METHODOLOGY Put 3ml of ABTS into a cuvette Test for light absorbance level by putting the cuvette into the UV-Vis Spectrometer, and record the results Add 25µl of antioxidants of varying pH level into the cuvette of ABTS 1 min Record the light absorbance level

WHAT HAPPENS Antioxidants from the solution will react with the free radicals in the ABTS The ABTS would turn from blue to colorless gradually as the antioxidants react with the ABTS. The higher the colour intensity of the solution, the more light will be absorbed. Thus, by measuring the light absorbance, we can see how much of the ABTS has reacted.

VARIABLES ConstantIndependentDependent Volume of ABTS (3ml) pH value of antioxidantAmount of light absorbed (Amount of ABTS that reacted in 1min) Volume of antioxidant (25µl) Duration of reaction (1min)

EXPERIMENT PROCEDURES 4 beakers of the various antioxidants with varying pH values (adjusted with the chemicals, NaOH and HCl) pH meter used to measure pH 3 beakers with NaCl solution (control) One unchanged solution Add in 3 ml of ABTS into cuvettes and test the absorbance Put the 25µl of antioxidant in, and start timing And after shaking, put it in the UV-Vis Spectrometer and wait for 1min Observe and recorded results obtained *Light absorbance = (light absorbance of ABTS with chemicals - original light absorbance of ABTS) divided by original light absorbance of ABTS × 100%

GINGER

Has a trend that a high pH leads to a higher light absorbance, showing that it has a higher antioxidant capacity Light absorbance relatively low GINGER

RED TEA

Shows a similar trend with Ginger Error bars can show that range of results defy trend Subjective conclusion RED TEA

CHRYSANTHEMUM TEA

TIE GUAN YIN

Both showed two similar dips in terms of graphs. Error bars show that results between the 5 tests we took were rather consistent In this case, pH does not affect antioxidant capacity TIE GUAN YIN CHRYSANTHEMUM TEA

GINGER (EXTENDED)

General trend shows that antioxidant capacity decrease then increases slowly throughout, with a drastic increase between pH 9.7 – pH 10.5 GINGER (EXTENDED)

CONCLUSION pH does not affect antioxidant capacity for antioxidant bodies like tea Different antioxidant bodies might react differently to the ABTS Alkaline water does not really help antioxidants function better to counter free radicals in our body Acid-base homeostasis, part of human homeostasis concerning the proper balance of pH, already adjusts the body for anti-oxidant capacity to work at its peak. Our results fulfill the null hypothesis which would be that pH does not affect antioxidant capacity.

CHALLENGES WE FACED Adjustments of the pH for antioxidant bodies such as fruits Varying the pH by the number of drops instead

Problems facedActions takenEffectiveness and Improvements New to the concepts and barely understood anything when we embarked on the project We had to do a lot of research to understand facts as well as learn how to use lab apparatus such as the UV-Spectrometer We picked up new skills during the course of the project Bumps along the project, such as the adjustments of pH for certain antioxidant bodies Improve the quality of other experiments in order to make up for the losses of “quantity” Allowed us to have concrete explanations for the conclusions, training our critical thinking and analytical skills. GENERAL REFLECTIONS

WORKS CITED ABTS. In Wikipedia. Retrieved from Wikipedia. [Image ABTS molecule structure]. Retrieved from Fairy-water watertec Co. Ltd. [Image alkaline water machine]. Retrieved from filter.com/images/products/ALKALINE_WATER_IONIZER_MANUFACTURER.jpg filter.com/images/products/ALKALINE_WATER_IONIZER_MANUFACTURER.jpg

THANK YOU FOR YOUR KIND ATTENTION!