Unit 4 Topic 3: Periodicity CDO IB Chemistry SL/HL

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Unit 4 Topic 3: Periodicity CDO IB Chemistry SL/HL Assessment Statements III. 1. The Periodic Table i. Describe the arrangement of the periodic table in order of increasing atomic number ii. Distinguish between group and period iii. Apply the relationship of electron arrangement and the position on the PT iv. Appy the relationship between the number of electrons and the highest occupied energy level for an element and its position on the PT 2. Physical Properties i. Define the terms first ionization energy and electronegativity ii. Describe and explain the trends of ionization energy, atomic radii, ionic radii and electronegativity iii. Describe the relative electronegativity values of two or more elements based on their positions on the periodic table ionic Chemical Properties i. Discuss the similarities and differences in chemical properties in the same group ii. Discuss the changes in nature from ionic to covalent and from basic to acidic of the oxides of period 3 1

Structure of the Periodic Table Periods Groups Group # - Example: How many outer shell electrons does P have? Identifying Physical Properties Physical properties depend ultimately on Periodic trends Effective Nuclear Charge Nuclear charge Outer electrons Effective nuclear charge Determining Effective Nuclear Charge Equation Zeff = Trends Increases Stays Periodic Trends The Basic Idea Force of attraction of electrons to the nucleus depends on 2 factors Across a period Down a group 2

Atomic Radius Atomic radius is determined by two factors. 1. 2. Atomic Radius in a Group Atomic size generally. Electrons are added to higher principal energy levels Atomic Radius in a Period As you proceed across a period, The number of energy levels... The effective Example 1 Choose the larger atom in each pair: Na or Si P or Sb Al or Cl Al or In 3

Ionic Radius Ionic Radius trend is essentially the same at the atomic radius, but now we are talking about the ions (cation or anion) If positively charged the radius If negatively charged the radius When substances have the same number of Example 2 Choose the larger particle in each pair Na or Na + F - or F Al 3+ or Al Example 3 Predict which of the following substances has the largest radius: P 3, S 2, Cl, Ar, K +, Ca 2+. IONIZATION ENERGY Ionization energy, E i : minimum energy required to Factor that affect IE 4

Example 4 Choose the atom with the larger ionization energy in each pair B or C O or S Cl or I Electronegativity Electronegativity is the tendency Electronegativity is used to predict the Electronegativity is expressed in a qualitative measurement called The scale assigns the highest value to Electronegativity Trends Going across a period, Electronegativity Metals have low The ability of an atom to attract electrons Example 6 Predict the order of increasing electronegativity in each of the following groups of elements. C, N, O S, Se, O 5

Melting Points Melting point Melting points of the Group I Elements Melting point Reason for the trend Metallic Bonding Melting Point of the Group VII Halogens Melting Point Reasoning Halogens are diatomic The attractive forces Melting points Across Period 3 Determine the trend by breaking into 4 main sections Metals Giant Covalent Molecular Covalent Atoms 6

Chemical properties Reactivity of the Noble Gases Basic properties Reactivity of the Group I Alkali Metals Too reactive Form a single cation (M+) Have very Reactivity Conduct Reaction of the Alkali Metals with Water React with water to form Examples Li(s) + H 2 O(l) Na(s) + H 2 O(l) K(s) + H 2 O(l) 7

Halogens Exist as They are Gradually They are Halogens Vs. Halides Halogens Halide - Group I Metals Reactivity with Halogens Alkali Metals react with halogens to form their salts (called halides) Examples Li(s) + Cl 2 (g) Na(s) + Cl 2 (g) K(s) + Cl 2 (g) Halogen reacting with a Halide The ability to react with Electron attraction 8

Halogen Halide Reaction Examples Cl 2 (aq) + Br-(aq) Cl 2 (aq) + I-(aq) Br 2 (aq) + Cl-(aq) Br 2 (aq) + I-(aq) I 2 (aq) + Cl-(aq) I 2 (aq) + Br-(aq) Bonding of the Period 3 Oxides Ionic compounds exist between Ex: Molecular covalent compounds Ex: Giant Covalent Acid Base Character of the Period 3 Oxides - Basic Basic Oxides Example: Li 2 O(s) + HCl(aq) MgO(s) + HCl(aq) 9

Acid Base Character of the Period 3 Oxides - Acidic Non metal oxides Example P 4 O 10 (s) + H 2 O(l) SO 3 (l) + H 2 O(l) Acid Base Character of the Period 3 Oxides - Amphoteric Amphoteric Aluminum oxide Amphoteric examples Acid: Al 2 O 3 (s) + OH- Base: Al 2 O 3 (s) + H 2 SO 4 10

Unit 5: 4: Periodic Trends Problem Problem Set 4-1 Set 5-1 1. Rank the following elements by increasing atomic radius: carbon, aluminum, oxygen, potassium. 2. Rank the following elements by increasing electronegativity: sulfur, oxygen, neon, aluminum. 3. Why does fluorine have a higher ionization energy than iodine? 4. Indicate whether the following properties increase or decrease from left to right across the periodic table. a. atomic radius (excluding noble gases) b. first ionization energy c. electronegativity 5. What trend in atomic radius occurs down a group on the periodic table? What causes this trend? 6. What trend in ionization energy occurs across a period on the periodic table? What causes this trend? 7. Circle the atom in each pair that has the largest atomic radius. d. Al or B e. Na or Al f. S or O g. O or F h. Br or Cl i. Mg or Ca 8. Circle the atom in each pair that has the greater ionization energy. j. Li or Be k. Ca or Ba l. Na or K m. P or Ar n. Cl or Si o. Li or K 9. Define electronegativity. 10. Circle the atom in each pair that has the greater electronegativity. p. Ca or Ga q. Br or As r. Li or O s. Ba or Sr t. Cl or S u. O or S 11

Unit 4: Bond Formation Problem Set 4-2 Ionic Bond between a Metal and Non-Metal (M + NM) Covalent Bond between a Non-Metal and Non-Metal (NM + NM) Metallic Bond between a Metal and Metal (M+ M) Determine if the elements in the following compounds are metals or non-metals. Describe the type of bonding that occurs in the compound. Compound Element 1 (metal or non-metal?) Element 2 (metal or non-metal?) Bond Type NO 2 N = non-metal O = non-metal covalent NaCl SO 2 PO 4 3- MgBr 2 H 2 O K 2 O Cu-Zn alloy O 2 CuCl 2 NO 2 - TiO 2 Au-Ag mixture Fe 2 O 3 C 6 H 12 O 22 12

Unit 4: Chemical Properties Problem Set 4-3 1. Write balance equations for each of the following reactions: a. Rubidium and water b. Potassium and water c. Chlorine solution with potassium bromide solution (Bromide ion) d. Sodium oxide with water e. Sulfur trioxide with water 2. Arrange the following in order of increasing melting point (lowest 1 st ) a. Cl 2 Na F 2 K b. Si Mg Cl 2 Ar Ne c. Na 2 O P 4 O 10 O 2 3. State whether an acidic or alkaline (basic) solution will be formed when each of the following is dissolved/reacted in water a. SO 3 b. MgO c. Na 13

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