Molecular Models in Biology



Similar documents
Chapter 2 The Chemical Context of Life

List the 3 main types of subatomic particles and indicate the mass and electrical charge of each.

Test Bank - Chapter 4 Multiple Choice

Laboratory 11: Molecular Compounds and Lewis Structures

Ionic and Covalent Bonds

7.4. Using the Bohr Theory KNOW? Using the Bohr Theory to Describe Atoms and Ions

Lewis Dot Notation Ionic Bonds Covalent Bonds Polar Covalent Bonds Lewis Dot Notation Revisited Resonance

Chapter 2: The Chemical Context of Life

Which substance contains positive ions immersed in a sea of mobile electrons? A) O2(s) B) Cu(s) C) CuO(s) D) SiO2(s)

Bonding Practice Problems

In the box below, draw the Lewis electron-dot structure for the compound formed from magnesium and oxygen. [Include any charges or partial charges.

PROTONS AND ELECTRONS

CHEMISTRY BONDING REVIEW

Directions: T. Trimpe

Survival Organic Chemistry Part I: Molecular Models

Chapter 6 Assessment. Name: Class: Date: ID: A. Multiple Choice Identify the choice that best completes the statement or answers the question.

Chapter 5 TEST: The Periodic Table name

5. Structure, Geometry, and Polarity of Molecules

ATOMS A T O M S, I S O T O P E S, A N D I O N S. The Academic Support Daytona State College (Science 120, Page 1 of 39)

Name Class Date. What is ionic bonding? What happens to atoms that gain or lose electrons? What kinds of solids are formed from ionic bonds?

Molecular Models Experiment #1

Ionic and Metallic Bonding

7) How many electrons are in the second energy level for an atom of N? A) 5 B) 6 C) 4 D) 8

EXPERIMENT 1: Survival Organic Chemistry: Molecular Models

ANSWER KEY. Energy Levels, Electrons and IONIC Bonding It s all about the Give and Take!

Modelling Compounds. 242 MHR Unit 2 Atoms, Elements, and Compounds

WRITING CHEMICAL FORMULA

Sample Exercise 8.1 Magnitudes of Lattice Energies

Chemistry Post-Enrolment Worksheet

(1) e.g. H hydrogen that has lost 1 electron c. anion - negatively charged atoms that gain electrons (1) e.g. HCO 3 bicarbonate anion

Electrons in Atoms & Periodic Table Chapter 13 & 14 Assignment & Problem Set

Elements in the periodic table are indicated by SYMBOLS. To the left of the symbol we find the atomic mass (A) at the upper corner, and the atomic num

Chemistry Diagnostic Questions

Section Activity #1: Fill out the following table for biology s most common elements assuming that each atom is neutrally charged.

Name Block Date Ch 17 Atomic Nature of Matter Notes Mrs. Peck. atoms- the smallest particle of an element that can be identified with that element

Chapter 2 Atoms, Molecules, and Ions

Atoms and Molecules. Preparation. Objectives. Standards. Materials. Grade Level: 5-8 Group Size: Time: Minutes Presenters: 2-4

Lewis Dot Structures of Atoms and Ions

Nomenclature and the Periodic Table To name compounds and to determine molecular formulae from names a knowledge of the periodic table is helpful.

neutrons are present?

19.1 Bonding and Molecules

Sketch the model representation of the first step in the dissociation of water. H 2. O (l) H + (aq) + OH- (aq) + H 2. OH - (aq) + H 3 O+ (aq)

Sample Exercise 8.1 Magnitudes of Lattice Energies

Theme 3: Bonding and Molecular Structure. (Chapter 8)

Periodic Table Questions

Science 20. Unit A: Chemical Change. Assignment Booklet A1

19.2 Chemical Formulas

ATOMS AND BONDS. Bonds

Chapter 8 Concepts of Chemical Bonding

Lab 3 Organic Molecules of Biological Importance

ATOMS. Multiple Choice Questions

Part I: Principal Energy Levels and Sublevels

EXPERIMENT 9 Dot Structures and Geometries of Molecules

Chapter 4: Structure and Properties of Ionic and Covalent Compounds

IB Chemistry 1 Mole. One atom of C-12 has a mass of 12 amu. One mole of C-12 has a mass of 12 g. Grams we can use more easily.

B) atomic number C) both the solid and the liquid phase D) Au C) Sn, Si, C A) metal C) O, S, Se C) In D) tin D) methane D) bismuth B) Group 2 metal

Periodic Table, Valency and Formula

Formulae, stoichiometry and the mole concept

A mutual electrical attraction between the nuclei and valence electrons of different atoms that binds the atoms together is called a(n)

Bonds. Bond Length. Forces that hold groups of atoms together and make them function as a unit. Bond Energy. Chapter 8. Bonding: General Concepts

Chem101: General Chemistry Lecture 9 Acids and Bases

Electrons In Atoms Mr. O Brien (SFHS) Chapter 5 Standard 1D

Chapter 5. Chapter 5. Naming Ionic Compounds. Objectives. Chapter 5. Chapter 5

Self Assessment_Ochem I

Atomic Structure. Name Mass Charge Location Protons 1 +1 Nucleus Neutrons 1 0 Nucleus Electrons 1/ Orbit nucleus in outer shells

CHEMICAL NAMES AND FORMULAS

Chapter 16: Tests for ions and gases

Chapter 17. How are acids different from bases? Acid Physical properties. Base. Explaining the difference in properties of acids and bases

Amount of Substance.

Objectives. PAM1014 Introduction to Radiation Physics. Constituents of Atoms. Atoms. Atoms. Atoms. Basic Atomic Theory

How much does a single atom weigh? Different elements weigh different amounts related to what makes them unique.

CHAPTER 6 Chemical Bonding

Unit 3 Study Guide: Electron Configuration & The Periodic Table

Balancing Chemical Equations

Cambridge International Examinations Cambridge International General Certificate of Secondary Education

Balancing Chemical Equations Worksheet

Chapter 1 Structure and Bonding. Modified by Dr. Daniela Radu

Study Guide For Chapter 7

( + and - ) ( - and - ) ( + and + ) Atoms are mostly empty space. = the # of protons in the nucleus. = the # of protons in the nucleus

Start: 26e Used: 6e Step 4. Place the remaining valence electrons as lone pairs on the surrounding and central atoms.

The Mole x 10 23

Lecture Overview. Hydrogen Bonds. Special Properties of Water Molecules. Universal Solvent. ph Scale Illustrated. special properties of water

ANSWER KEY : BUILD AN ATOM PART I: ATOM SCREEN Build an Atom simulation ( an atom )

Chapter 8 How to Do Chemical Calculations

TOPIC 7. CHEMICAL CALCULATIONS I - atomic and formula weights.

Instructors Guide: Atoms and Their Isotopes

Health Science Chemistry I CHEM-1180 Experiment No. 15 Molecular Models (Revised 05/22/2015)

Instructions Answer all questions in the spaces provided. Do all rough work in this book. Cross through any work you do not want to be marked.

6 Reactions in Aqueous Solutions

Untitled Document. 1. Which of the following best describes an atom? 4. Which statement best describes the density of an atom s nucleus?

Candidate Style Answer

CHEMICAL FORMULAS AND EQUATIONS

Multiple Choice Identify the letter of the choice that best completes the statement or answers the question.

Question 4.2: Write Lewis dot symbols for atoms of the following elements: Mg, Na, B, O, N, Br.

Chapter 2 Polar Covalent Bonds; Acids and Bases

3/5/2014. iclicker Participation Question: A. MgS < AlP < NaCl B. MgS < NaCl < AlP C. NaCl < AlP < MgS D. NaCl < MgS < AlP

Topic 4 National Chemistry Summary Notes. Formulae, Equations, Balancing Equations and The Mole

Chapter 4 Lecture Notes

Name: Block: Date: Test Review: Chapter 8 Ionic Bonding

Chemistry 51 Chapter 8 TYPES OF SOLUTIONS. A solution is a homogeneous mixture of two substances: a solute and a solvent.

Transcription:

Molecular Models in Biology Objectives: After this lab a student will be able to: 1) Understand the properties of atoms that give rise to bonds. 2) Understand how and why atoms form ions. 3) Model covalent, ionic and hydrogen bonds. 4) Be able to predict which type of bond (if any) an atom is likely to form. 5) Model a carbon chain 6) Model the functional groups: hydroxyl, amino, and carboxyl 7) Understand basic carbohydrate structure. 8) Understand basic organic acid structure. 9) Model glucose, fatty acids and amino acids. Introduction: The properties of chemical compounds are directly related to the ways in which atoms are bonded together into molecules. Molecules are 3-dimensional entities that we often discuss in on a 2-dimensional surface (in our notes). Lewis dot structures and structural formulas of molecules are both examples of 2-D models. Using a ball and stick modelling kit, you will be able to see how atoms form molecules in 3-D. Atoms: Before you can begin forming models, you need to be able to predict the atomic structure of atoms of various elements. Atoms are made up of 3 parts (as discussed in lecture). Fill in the table below with your knowledge of the basic structure of an atom: Particle Location in the atom Electrical Charge Mass Proton Neutron Electron 1

Using the Periodic Table of Elements attached to this worksheet, complete the following chart: Element Oxygen Chemical Symbol Number of Protons Number of Neutrons Number of Electrons Atomic Mass Carbon Hydrogen Nitrogen Phosphorous Sulfur Sodium Chlorine Iodine Neon Draw a Bohr model for each of an atom of each of the following elements: O, C, H, N, P, S, Na, Cl, I, Ne 2

Valence electrons are those located in the outermost orbital (shell). Indicate how many valence electrons each of the following elements has and represent an atom using a Lewis dot structure. Element Number of valence electrons Lewis dot structure Oxygen Carbon Hydrogen Nitrogen Phosphorous Sulfur Sodium Chlorine Iodine Neon Models of Covalently Bonded Molecules A covalent bond occurs when 2 atoms share a pair of electrons. By sharing electrons, each atom can satisfy meeting a full valence shell and thus be stable. For each molecule below, draw both a Lewis Dot Structure and a structural formula H2O (water) CH4 (methane) NH3 (ammonia) 3

Now model each of the above molecules using your ball and stick model kit. Color code for the kit Atom Color and size Hole pattern Hydrogen White, very small No holes; ball and stick unit Carbon Black, large 4 holes equally spaced Oxygen Red, small 2 holes spaced far apart Nitrogen Blue, small 3 holes spaced far apart Sodium Orange, large 1 hole Chlorine Green, large 1 hole Question: What do the sticks between the balls represent? Look at your model of methane. If you drew a line connecting each hydrogen to each other, you could visualize a tetrahedron. Question: Water and ammonia also form tetrahedrons. For each of those molecules, describe what is located at the points that do not have a hydrogen. 4

The Polar Covalent Nature of Water and Hydrogen Bonds Because water has electrons at 2 of the 4 corners of the tetrahedron, those corners have concentrated a negative charge on that side of the molecule. Likewise, the hydrogen atoms at the other 2 corners have concentrated the positive charge of the protons on the opposite side of the molecule. The unequal distribution of charge means that water is polar. Polar molecules form hydrogen bonds. The negative side of one molecule aligns with the positive side of another molecule and forms a weak electrical attraction. You can experience these bonds with water when you watch a water strider walking on water. The insect is not heavy enough to break the hydrogen bonds that link the water molecules together. Water Strider 5

Make a couple of water molecules with your ball and stick set. Trace them in the space below. Show how hydrogen bonds would form between them. Ions and Ionic Compounds Ions form when an atom gains or loses electrons in order to complete a valence shell. Atoms that have gained electrons are called anions; those that have lost electrons are called cations. What charge to anions and cations have? Fill in the table below: Ion Anion Cation Charge Complete the following table indicating whether the element would readily become an anion or cation. Draw the Lewis dot structure for the ion. Element Number of Valence Electrons Becomes an anion or a cation? Lewis dot structure for the ion Sodium Chlorine Potassium Magnesium Calcium 6

For the following ionic compounds, indicate which atom is the anion and which is the cation. Compound Anion Cation NaCl (sodium chloride) CaCl2 (calcium chloride) KI (potassium iodide) HCl (hydrogen chloride) Use your ball and stick model to form NaCl. Question: Should you use the sticks provided? Why or why not? If not, can you think of a better way to model this compound? Ionic compounds dissociate in polar solvents (like water). This happens because the polarity of water surrounds each ion and separates it from its partner ion. Make a few ball and stick models of water. Model how water dissolves NaCl. Question: In your own words, explain why water is an excellent solvent and why ionic compounds dissociate in water. 7

Organic Compounds Organic molecules contain the elements C and H. Question: Which organic molecule have you modeled in this lab? In organic molecules, carbon forms chains. In the simplest structure, the other available bonding sites on each C are H. Methane Ethane Propane Make a ball and stick model of each of these compounds. Notice how they are not flat 2- dimensional structures. 8

Functional Groups In organic molecules important to biology, some of the H atoms on the C-chain are replaced by groups of atoms called functional groups. Functional Group Hydroxyl Carboxyl Chemical Formula -O-H O -C-OH Amino Phosphate -NH2 -PO4 Modelling glucose. Glucose (C6H12O6) is a typical carbohydrate. The molecule is a 6 carbon chain. Each carbon is connected to another carbon. Each C has two other bonding sites (besides those connected to the neighboring C). One of those sites has an H, and the other has a hydroxyl group (OH). Notice that H + OH = H2O. Carbo hydrate means that each carbon has the components of water (hydration) attached to it. Using the information above, make a ball and stick model of glucose. Question: Using that ball and stick model. Draw a 2-D structural formula of glucose below. Question: How many hydroxyl groups are in glucose? Circle them in your diagram above. 9

Modelling Fatty Acids All organic acids have a carboxyl group. Fatty acids are just a long chain of carbon atoms with a carboxyl group at one end. In saturated fatty acids, all other bonding sites on each C in the chain are filled with hydrogen. Use your ball and stick model to create a saturated fatty acid that is 6 C s long. Question: Using that model as a guide, draw the structural formula of your saturated fatty acid below. Circle the carboxyl group. Modelling Amino Acids Like fatty acids, amino acids are organic acids. Question: What functional group must an amino acid have if it is an organic acid? In addition to that carboxyl group, amino acids have an amino group. Both the carboxyl group and amino group are attached to the same carbon. The generalized structural formula for an amino acid is: The R indicates the rest of the molecule. 10

Question: There are 20 different amino acids. How many different R configurations do you think there are? Using your ball and stick model, create a model of this basic amino acid structure. Leave the R location unfilled. For the amino acid glycine, the R group is just a hydrogen atom. Add that to your model. Draw the structural formula of glycine below. Circle the amino group and the carboxyl group. For the amino acid alanine, the R group is CH3. Change your model to reflect alanine. Draw the structural formula of alanine below. Circle the amino group and the carboxyl group. You can see that ball and stick models can get complicated fast! Rather than continue making more and more complicated models, we will go back to 2-D representations of molecules. Now you have a basic understanding of the 3-D structure underlying those 2-D models. 11

2026 © DocPlayer.net Privacy Policy | Terms of Service | Feedback  | Do Not Sell My Personal Information