Table of Contents - E-Campus

advertisement

Table of Contents

Module 1 - Science Concepts

Submodule - Introduction

1 - Welcome

2 - About This Review Course

3 - Correlations to the TExES

4 - Browser Check for Media Capabilities

5 - Course Organizer/ Activity Checklist

6 - Tips & Techniques for Working Online

7 - Acceptable Use and Other Internet Guidelines

Submodule A - Analyzing the TEKS

1 - Overview

2 - Engager

3 - Significance of Science

4 - Science Concepts

5 - About the TEKS

6 - Introduction Statements

7 - Verticle Alignment

8 - Strands

9 - TEKS to STAAR

10 - Reflection

Submodule B - Unifying Concepts & Scientific Processes

1 - Overview

2 - Engager

3 - Unifying Concepts

4 - Planning for Science Instruction

5 - Nature of Science

6 - Investigations & the Inquiry process

7 - Scientific Method

8 - Patterns & Properties

9 - Investigating Patterns & Properties

10 - Using Models

11 - Scientific Models

12 - Constancy & Change

13 - Systems

14 - Identifying Systems All Around Us

15 - Investigating Systems

16 - Reflection

Submodule C - Science Instruction

1 - Overview

2 - Engager

3 - Introduction to Science Instruction

4 - Science and Diverse Learners

5 - Adaptation of a Science Lesson

6 - Scientific Inquiry

Region 13 ESC Page 1 12/2/2013

7 - Promoting Scientific Thinking and Explanation

8 - Science Lab Activities and Field Investigations

9 - Science Tools & Equipment

10 - More About Tools & Equipment

11 - Promoting Safe Science

12 - Science Assessment

13 - Reflection

Module 2 - Chemistry

Submodule D - Matter and Atomic Structure

1 - Overview

2 - Engager

3 - Phases of Matter

4 - Structure of an Atom

5 - Electrons Orbital

6 - Elements, Compounds, Mixtures, Solutions

7 - Physical and Chemical Properties

8 - History of Periodic Table of Elements

9 - Periodic Table of Elements

10 - Reflection

Submodule A - Properties of Gases

1 - Overview

2 - Engager

3 - Observable Properties of Gases

4 - Properties of Gases Investigation

5 - Pressure of Gases

6 - Boyle's Law

7 - Charles’ Law

8 - Avogadro's Law

9 - Ideal Gas Law

10 - Dalton's Law of Partial Pressures

11 - Kinetic Molecular Theory of Gases

12 - Reflection

Submodule B - Ionic and Covalent Bonds

1 - Overview

2 - Atomic Structure

3 - Ionic vs. Covalent Bonds

4 - Properties of Chemical Bonding

5 - Covalent and Ionic Bonds

6 - Ionic vs. Covalent Bonds

7 - Octet Rule Lewis Structures

8 - Intermolecular and Intramolecular Forces

9 - Electronegativity, Electron Affinity, and Oxidation

10 - Molecular Geometry

11 - Reflection

Submodule C - Chemical Reactions and Equations

1 - Overview

Region 13 ESC Page 2 12/2/2013

2 - Engager

3 - Chemical Reactions and Equations

4 - Types of Chemical Reactions

5 - Types of Equations

6 - Practice Predicting Products of Reactions

7 - Molecular and Empirical Formulas

8 - Chemical Reaction Rates

9 - Chemical Equilibrium

10 - Moles in Chemical Equations

11 - Conservation of Mass

12 - Limiting Reagent

13 - Yields of Chemical Reactions

14 - Mass Relationships from Chemical Equations

15 - Reflection

Submodule D - Solutions

1 - Overview

2 - Engager

3 - Analyzing Factors that Affect Solubility

4 - Identifying Characteristics of Solutions

5 - Determining Aqueous Solutions

6 - Net Ionic Equations

7 - Understanding the colligative properties of solutions

8 - Properties of Electrolytes

9 - Rates of Reaction in Solutions

10 - Structural Properties of Water

11 - Reflection

Submodule E - Energy Transformations

1 - Overview

2 - Engager

3 - Phase Changes

4 - Calorimetry

5 - Experiments with Calorimetry

6 - Law of Conservation of Energy

7 - Thermodynamic Relationships- Enthalpy and Entropy

8 - Thermodynamic Relationships- Gibbs Free Energy

9 - Reflection

Submodule F - Nuclear Chemistry

1 - Overview

2 - Nuclear Chemistry

3 - Balancing Nuclear Reactions

4 - Fission and Fusion

5 - Stable and Unstable Nuclei

6 - Stable and Unstable Isotopes

7 - Reflection

Submodule G - Oxidation-Reduction Reactions

1 - Overview

Region 13 ESC Page 3 12/2/2013

2 - Determining Oxidation States of Ions and Atoms in Compounds

3 - Identifying and Balancing Oxidation and Reduction Reactions

4 - Using Reduction Potentials

5 - Explaining Electrochemical Cells

6 - Analyzing Applications of Oxidation and Reduction Reactions

7 - Reflection

Submodule H - Acids and Bases

1 - Overview

2 - Acids and Bases

3 - Acid and Bases Quiz

4 - Arrhenius, Lowrey and Lewis Models

5 - Strong Acids and Bases

6 - Weak Acids and Bases

7 - Acid-Base Titration

8 - Buffers

9 - Acid–Base Reactions: Neutralization Reactions

10 - Reflection

Module 3 - Course Conclusion

Submodule I - Course Conclusion

1 - Before You Begin the Practice Test

2 - TExES Practice Assessment

Submodule A - Test Results and Further Review

1 - Analyzing Your Results with the Test Answer Key

2 - For Further Review

3 - Certificate Instructions

Region 13 ESC Page 4 12/2/2013

Download