1. [Unit 1- Lesson 0.1] The understanding that particles make up the underlying structure of matter has led to advancements in technology.
1.1. 1. Safety in laboratory 2. Properties and classification of matter 3. Developing ideas about matter
2. Unit 1-Energy and Matter in Chemical Change
2.1. [Unit 1-Lesson 0.2] Elements combine to form many substances, each with its own set of properties.
2.1.1. 1. The periodic table and atomic structures 2. Naming ionic and molecular compounds 3. the properties and classification of ionic and molecular compounds 4. Acids and bases 5. our chemical society
2.2. [Unit 1-Lesson 0.3] Chemical change is a process the involves recombining atoms and energy flows.
2.2.1. 1. Important examples of chemical change 2. writing chemical equations. 3. Five common types of chemical reactions 4. The Mole
3. Unit 4- Energy Flow in Global Systems
3.1. [Unit 4- Lesson 0.1] Climate results from interactions among the components of there biosphere
3.1.1. 1. Earth-our biosphere 2.Climate
3.2. [Unit4-Lesson 0.2] Global systems transfer energy through the biosphere.
3.2.1. 1. Energy relationships and biosphere 2.Thermal energy transfer in the atmosphere 3.Thermal energy transfer in the hydrosphere 4.Earth's biomes 5.Analyzing energy flow in global systems
3.3. [Unit 4-Lesson 0.3] Changes in global energy transfer could cause climate change, and impact
3.3.1. 1. Climate change-examining the evidence 2.International collaboration on climate change 3.Asessing the impacts of climate change
4. Unit 2-Energy Flow in Technological Systems
4.1. [Unit 2-Lesson 0.1] Investigating the energy flow in technological systems requires an understanding of motion work and energy.
4.1.1. 1. Motion 2. Velocity 3. acceleration 4. Work and energy
4.2. [Unit 2-Lesson 0.2] Energy in mechanical systems can be described both numerically and graphically.
4.2.1. 1. Forms of energy 2. Potential energy 3. Kinetic energy and motion 4.Mechanical energy 5. Energy conversions
4.3. [Unit 2-Lesson 0.3] Principles of energy conservation and thermodynamics can be used to describe the efficiency of energy transformations.
4.3.1. 1.Laws of thermodynamics 2.The development of engine technology 3.Useful energy and efficiency 4.energy applications
5. Unit 3-Cycling Matter in Living Systems
5.1. [Unit 3-Lesson 0.1] Our current understanding of the cell is due in part to developments in imaging technology.
5.1.1. 1. A window on a new world 2.Development on the cell theory 3.Developments in imaging technology and staining techniques 4.Cell research at molecular level
5.2. [Unit 3-Lesson 0.2] Living systems are dependent upon the function of cell structures and organelles.
5.2.1. 1. The cell as an efficient, open system 2.The role of the cell membrane in transport 3.Applications of cellular transport in industry and medicine 4.Is bigger better
5.3. [Unit 3-Lesson 0.3] Plants are multicellular organisms with specialised structures.
5.3.1. 1. Cells, tissues, and systems 2.The leaf and photosynthesis 3.the leaf tissues and gas exchange 4.Transport in plants 5. Control systems