Mason Clark Ava Embrey Kalen Carper Jasmyne Post.

Slides:

Advertisements

Similar presentations

The Molar Volume of a Gas

Advertisements

BL TIER 3 TIER 3 Identify suitable experimental procedures for measuring rates of reactions Identify the factors affecting the rate of a reaction Calculate.

Optimal Alkaline pH Sodium Hydroxide Felicia, Brunette, Shaelyn.

Unit 2 PPA3 The effect of changes in pH and temperature on the decomposition of hydrogen peroxide.

CATALASE FLOATING DISC LAB

Catalase and peroxide lab

Rate Of Reaction & Catalysts

Investigate how the concentration of a hydrogen peroxide solution affects the speed at which it decomposes to produce oxygen gas.

ENZYMES 1 ENZYMES Quick Quiz 1 Press the button when you’re sure… remember to take your time as you only get one chance!

HOW DOES ETHYL ALCOHOL INHIBIT THE RATE OF CATALYST ENZYME ACTIVITY? By: Jeranika Semien.

Enzymes. Introduction to Enzymes  Chemical reactions all occur at different rates  Some are very quick and some are extremely slow.

IRSC General Biology I Lab

Investigating Catalase Topic 3 IB Internal Assessment.

Enzyme Catalysis with Catalase

MCA Test Preparation Part 4. Hydrogen peroxide (H 2 O 2 ) is a highly active chemical often used for cleaning minor wounds. Hydrogen peroxide is also.

Word of the Day Denature - changes in the chemical structure of an enzyme.

Chelsea Sams, Abbie Stallings, Ben Duncan, Leslie Probus, and Cassie Blandford Effect of Temperature on Catalase Activity Rate.

AP Bio Lab # 13 Enzyme Activity Pre-Lab

Biology 120 Enzyme Function Exercise 4

Birds & Aging Many birds appear not to show the effects of cellular senescence (i.e. cells stop reproducing) This failure to show the physical effects.

Protein and Enzymes b. What are enzymes and where are they found?

Wednesday, 9/12/12 Finish Toothpickase Activity  must be completed today!!! – Due tomorrow!!!!! 1 st lab this week – set up today, lab Thursday & Friday.

Catalyzing Substrate Concentrations Ibraheem Murtaza, Neil Madadi, Autumn Coomes, Cameron Buckman, Allison Wright.

Laboratory Concepts Dani Klingert. Accuracy When titrating, rinse the buret with the solution to be used in the titration instead of with water. If you.

Chemistry Equipment. Beaker doesn't measure the volume of liquids very accurately. It is usually used as a container for mixing or holding chemicals.

Glassware Identification

Lab Activity #4: Quantitative Analysis Chemical Background – Vinegar is a solution of water that contains acetic acid (CH 3 COOH). Baking soda is pure.

Enzyme Catalysis with Catalase

CAPT Lab: Investigating the Effect of Temperature on Enzyme Activity Created by Mr. Cross

Cells live by Molecular Actions Laboratory Investigation into how molecules carry out Cell life processes.

Glassware Identification. You will write the name and description of each item and a quick drawing if needed. Presentation will be on my website as well.

The decomposition of hydrogen peroxide in aqueous solution happens very slowly. A catalyst can be used to speed up this reaction. Objectives: Conduct.

H. Cordy-McKenna (Honywood School 2008) Understanding Rates of Reactions Use the green button to advance slides that contain animations

Chemical Reactions. Cornell Notes  Title your notes: Chemical Reactions Notes  Add topics and summary after re-reading the notes.

Reaction Rates. Reaction Rate Activity H 2 O 2 + Yeast  ? 1.Create a before and after table on a piece of paper to record your observations. 2.Pour about.

Cellular Respiration Lab Problem: What are the products of cellular respiration and fermentation? Background: Hypothesis:

Peroxidase lab. What is peroxidase?  All organisms have enzymes (catalysts) called peroxidases that break down hydrogen peroxide into less harmful substance.

By: Marie, Jacob, Jenna, Max, and Nikita The Effect of Different Levels of pH on the Rate at which Catalase Decomposes into Water and Oxygen.

Enzymes PP 35-37, 57.  Energy: the ability to do work  Requires energy to start the reaction (activation energy, E a ) Chem Rxns Review.

Lesson Starter 1.What is a catalyst? 2.What effect do catalysts have on the input energy required for a reaction to happen? 3.What is special about a catalyst.

Chemical Reactions and Enzymes. Chemical Reactions A chemical reaction is an interaction between two chemicals. Chemical bonds are either broken or formed.

Mass Comparison Lab By: Nick L Jess F Sarah S Halle B.

 Most common for holding liquids  Hold solids or liquids that are unlikely to release gas or splatter if stirred or heated.  Beakers come in several.

 Increasing the concentration of a reactant substance will increase the rate of reaction. This is because more collisions will occur, and therefore more.

DIFFERENCES OF SUBSTRATE CONCENTRATION By: Naomi Belcher, Julia Calhoun, Rayvin Ewers, and Katarina Mayer.

C DOES PH AFFECT THE RATE OXYGEN IS RELEASED? By: Bekah, Emily, Miranda, & Savana.

Investigating Catalase

Liquid Conductivity Measuring conductivity in saline water solutions.

Enzyme Reactions in Living Organisms

Gas Stoichiometry Collection of Oxygen Gas

Metabolism and Enzymes(2.5) Part 1

By: Marie, Jacob, Jenna, Max, and Nikita

Lab Safety Rules for Biology.

Investigating Catalase

By: Marie, Jacob, Jenna, Max, and Nikita

Catalase Concentrations

Glassware Identification

Mason Clark Ava Embrey Kalen Carper Jasmyne Post

Does the temperature of catalase affect its enzymatic action?

Reaction Rates.

Physical & Chemical Changes

Catalase Concentrations

By: Tara Knott, Amie Woolard, & Ally Mattingly

Set Up Your Lab Report Name: _________ Title: Lab 7 – The Effects of Environmental Conditions on Enzyme Activity Introduction Purpose: To observe the effects.

Quick Review of Experiment

The effects of solution temperature on catalase reaction rates

Procedures Reading from the text.

Catalyze Concentrations Related to Oxygen Production

By: Sam, Christiane, and Kayla

Presentation transcript:

Mason Clark Ava Embrey Kalen Carper Jasmyne Post

 Purpose: Determine if adding more catalase to a beaker of hydrogen peroxide would produce more oxygen gas  Experiment Summary: We used gas pressure sensor to measure the amount of gas that was given off during the reaction in three different trials.

 Experiments have been performed in the past such as ours but we wanted to:  Observe the reactions ourselves  See how our methods and technology would alter our results compared to theirs  The Experiments that we examined were:  P George, Biochemical Journal  Peter Jones and A Sugget, Biomedical Journal

 P. George, Biochemical Journal, 1949  Extracted liver catalase from liver of horse  They added that catalase (in different variations) to a hydrogen peroxide mixture and measured the oxygen evolution  Used a technique developed by Meldrum, Roughten, and George to measure pressure  Found that the higher the concentration, the quicker the pressure rose

 Peter Jones and A Sugget, 1968  Used the Quenched Flow Technique– a technique in which two reactants are mixed together and then their reaction is quenched with a chemical agent  They started their mixture with a low concentration of catalase, and slowly raised it for different trials  They also found the higher the concentration, the quicker the pressure rose

 The Hydrogen Peroxide solutions with the highest concentrations of catalase added will produce the most oxygen byproduct.

 150 mL of 1.5% hydrogen peroxide  Erlenmeyer flask  Stir bar and plate  Gas pressure sensor and tubing  100 microliters of catalase concentrations of each:  100 units/mL  1000 units/mL  2000 units/mL  Ring Stand  Two hole stopper  Logger Pro Software

1. Don all necessary PPE 2. Measure out 50 mL of H202 in flask 3. Place stir bar in flask, and attach flask to ring stand, sitting on the stir plate 4. Attach the gas pressure sensor and Logger Pro reciever 5. Add 100 micro liters of 100 units/mL enzyme suspension, and seal the flask

6. Start the stirrer at a medium-slow speed, and start data collection 7. Stop collecting data after 200 seconds 8. Repeat steps 2-7 with 1000 units/mL suspension, and 2000 units/mL suspension

 Our data shows a direct correlation between the concentration of catalase, and the increased pressure of the container, due to the produced oxygen. The results were very similar with the two lowest concentrations, with the pressure raising.6 kPa with the 100 u/mL concentration, and.3 kPa with the 1000 u/mL concentration. However, the pressure greatly increased with the 2000 u/mL concentration, raising 4.1 kPa. The graphs below are scaled to show the difference in the amount of pressure increased.

 Higher concentration of catalase, there is more enzyme activity  More enzyme activity, more byproduct oxygen

 Higher concentration of catalase= increased rate of oxygen byproduct  Hypothesis confirmed