Lab_1_The Tools and History of Chemistry - Chemistry.

Slides:

Advertisements

Similar presentations

Observations Check the three observations that are GOOD observations applicable to this lab. Underline QUANTATIVE observations. □ The pennies are a circle.

Advertisements

Highlights of Objective 1 Highlights of Objective 1 l The use of tools and equipment included in the middle school TEKS is part of this objective. l Students.

Metric Measurement Students will each need a metric ruler, meter stick and thermometer. You will also need to supply them with some water and a graduated.

Recycling Plastics Lab. Recycling Plastics Lab (1/8) How can we separate plastics efficiently using the differing densities of different types of plastics?

Early Work: March 2nd 1.Please grab a computer and go to my school district website. 2.Take out your hypothesis, procedure, and data from the vinegar and.

Important Topics Added to Chapter 1

Measurement in Science

Answer Key Review p

Baking Soda/Vinegar Stoichiometry Lab. Materials Balance Weighing Paper 1 teaspoon of Baking Soda 1 small bottle of vinegar 1 zip lock plastic bag Very.

Concentration and Dilution of Solutions. HOW TO MAKE A SOLUTION “The Procedure” We’ll make a Kool-Aid Solution!!!

Let’s get ready to measure!!!

Periodic Trends in Density Required Laboratory Skills.

Vocabulary - Measurement

Laboratory Equipment. Erlenmeyer Flasks Beakers.

Unit 1 Chemistry Study guide: Measurement and Estimation

Measurement, Matter, Mixtures and Density Presented by MikeBaldwin.

1.07 Accuracy and Precision

 In our lab we attempted to answer the question of if surface area affected osmosis rates. To accomplish this we created 4 different shapes out of potato,

Standard #1 Select appropriate lab glassware, balances, time measuring equipment and optical instruments to conduct an experiment.

Density Bead Lab.

QOD #41 Name one chemical PROPERTY and give an example of a chemical change that could happen because of that property. Name one physical PROPERTY and.

Accurate measurements are needed for a valid experiment.

Oceanic Absorption In this activity, you will conduct an experiment to learn about the method of oceanic absorption for carbon sequestration.

Thoughts… Short lecture on uncertainty and use of measurement tools prior to activity. Also night need to go over how to calculate percent error (shows.

Density Eric Angat Teacher. 250 mL. Beaker ( volume in mL.)

LAB INVESTIGATION: Law of Conservation of Mass Matter cannot be created or destroyed - it can only be changed! Reactants Products.

Layered Solutions: A Lab on Density. Observations/ Data: -The red solution was a little murky with some of the salt not settled. -Yellow and green seemed.

Math and Measurement. Significant Figures Significant Zeros 1.Leading zeros are never significant 2.Trailing zeros only count if there’s a decimal point.

Density Eric Angat Teacher. I. Investigative Question: How do I calculate the density of an object?

Propagation of Uncertainty in Calculations -Uses uncertainty (or precision) of each measurement, arising from limitations of measuring devices. - The importance.

Exploring Density. What are the most common types of rock found on Lunar maria? Highlands? Basalt Feldspar How did you identify your rock samples? Size.

Density. Density is a ratio of mass to volume of an object. D= m / v (density = mass / volume) Density is measured in g/mL (grams per milliliter). Density.

Investigation 2: Part 2-Citric Acid Saturation. What is citric acid? Citric acid is a weak organic acid found in citrus fruits. It is a natural preservative.

Matter Review Start review! 1. Mass of an object is measured on a ____________. Thermometer Balance Scale Spring scale.

Density Experiment # 3. Density Density of a rubber stopper Determine density be displacement of water Fill graduated cylinder with a known volume of.

Meters, Liters, and Grams. Oh, My! T. Trimpe 2008

Go to your next open page and put the title and date on it.

Preparing Solutions.

Unit 4 : Solutions 8.4 – Dilution and Solution Preparation.

REACTING to Density GO TO YOUR NEXT OPEN PAGE AND PUT THE TITLE AND DATE ON IT. Slide 1.

Welcome to Chemistry 116! Lab Safety and Proper Procedure Labs 1 & 2.

Measurements and Calculations

1 1.1 What Chemistry Is About Measurements Using clear standards of measurements, we can communicate more effectively in answering simple questions.

1.Put 50 mL of vinegar in the bottle and a scoop of baking soda on the paper. 2.Obtain the mass of the bottle, bottle cap, vinegar, baking soda and paper.

The Basics of Solution Making. Making solutions with solid solutes Follow the steps below: –Measure out the appropriate mass of solute –Dissolve the solid.

Solutions Investigation 8. Part 1 - Mixtures What is a Mixture? G:\ISTCS\School papers\Science\8th grade\Chemical Interactions\Media\Mixtures.wmv.

Mixtures and Solutions. Name the two parts of a solution.

General Laboratory Techniques Dry Lab Chemistry 1105.

Christopher G. Hamaker, Illinois State University, Normal IL © 2008, Prentice Hall Chapter 2 Scientific Measurements INTRODUCTORY CHEMISTRY INTRODUCTORY.

Uncertainty in Measurements

Salt Solutions: Preparation, Density, and Concentration Relationships.

Unit: Introduction to Chemistry

Let’s get ready to measure!!!

Lab 13 How Much Solute Dissolves in a Solvent

How do you find the volume of a regular solid object?

Metric Measurements.

Density of Air INB 44.

Measurement: Tools and Units

Scientific Tools of Measurement

Oceanic Absorption In this activity, you will conduct an experiment to learn about the method of oceanic absorption for carbon sequestration.

Measurement lab station #1

Investigation 1 Soft Drink Recipes

Density Lab Intro.

Procedure for calculating density

Jeopardy Final Jeopardy Vocab Measurement Explain Experiment Random

Which of these numbers has the most significant figures E 5

Title: Measurement Lab

Lab 8 The Density of Water Purpose Background PART 1

Presentation transcript:

Lab_1_The Tools and History of Chemistry - Chemistry

This lab will make use of your ability to make Scientific Models, to use the Scientific Method, and to use the tools of Chemistry to do this.

Step 8 Mass a 10 mL graduated cylinder. Record. (Make sure your measurement is taken to the proper guesstimate)

Step 8 Fill the 10 mL graduated cylinder with exactly 10 mL of pure water. Use a plastic pipette to get the volume exactly. Mass the graduated cylinder and water. Record. (Make sure your measurement is taken to the proper guesstimate)

Step 8 Figure out the density of the pure water in the graduated cylinder. Remember, density is the number of grams in one mL of liquid. So… Figure out the mass of the water (in grams). Divide this figure by the volume (in mL) that you had (which was 10 mL of water). Hopefully, your measurements were precise but were they accurate? Pure water should have a density of 1 g / mL. If your density isn’t 1 g / mL that’s OK. Continued on next slide -

Step 8 In labs, you don’t make up data – use the numbers that you get, especially if you made the measurements to the proper significant digits (to the proper guesstimates). You will now use the Scientific Method to figure out how many grams of salt dissolved into 10 mL of water is required to raise the density of the liquid up 0.1 g / mL. One possible way of doing this is outlined in the next slides.

Step 8 Fill the 10 mL graduated cylinder with exactly 9 mL of pure water (this will allow room for the salt that will be added). Use a plastic pipette to get the volume exactly.

Step 8 Fill a 10 mL graduated cylinder with exactly 10 mL pure water. Use a plastic pipette to get it exactly.

Step 8 mass of this minus mass of this gives the mass of the vinegar used (record)

1) What organelle is shown at “A”? Picture of answers from “Word to Photoshop” originally in Verdana 16 font Answer for this question 1) mitochondria

Move the ten gram weight on the balance beam over two places so exactly 20 grams of water can be added to the test tube. 10 g

Cut the top off of a plastic water bottle and throw the top away. Step 1

Mass the bottle on a balance beam scale and record. Step 2

Place 3 teaspoons of baking soda (NaHCO 3 ) in the container Step 3

Step 8 mass of this minus mass of this gives the mass of the vinegar used (record)

Step 9 The mass of just the baking soda Plus The mass of just the vinegar Equals The total mass of the starting reactants. (record) plus

Step 10 Slowly pour the vinegar into the container containing the baking soda. Slowly, because if it fizzes over the side you need to start the experiment over again!

Step 11 Slowly swirl the container and solution until all the bubbles and fizz disappears.

Measure out approximately 300 mL of water into the cup. Mass out the cup and water and record. Take the temperature of the water and record.

Pour the Urea into the water.

Mass out about 30 g of Urea in weigh boat. Then mass out the combined mass of the Urea and the weigh boat. Record. Take the temperature of the Urea (as best as you can) and record.

Slowly add salt with a lab spoon until there is exactly 10 grams of salt in the test tube. 10 g

Move the ten gram weight on the balance beam over two places so exactly 20 grams of water can be added to the test tube. 10 g

Step 10 If you use all 60 mL of the 0.05 M NaOH solution that you have in the syringe and the mystery solution is still not pink, pull up another 60 mL of the 0.05 M NaOH solution and continue.