District 11 Diamond Units/Lessons Overview - includes information about the purpose, goals and structure of these sample instructional units:

Enduring Understandings - important ideas that students should carry with them years beyond the instruction received this year.

• Scientists investigate the world around them and communicate to others through the scientific process.
• The scientific process is the basis of an integrated approach to understanding our world. (topic/problem, testable question, hypothesis, procedure)
• Scientists use a plan to carry out an investigation (variables, control, data, observations, investigations).
• Scientists select, appropriate tools to collect, organize, and record data using the metric system in tables, charts, and graphs. Scientists analyze data for reliability and validity to form a conclusion. Scientists analyze data to infer past and predict future events.
• Scientists ask questions based on their investigations and these questions can lead to new investigations.
• Scientists communicate the results of their investigations in many formats and appropriate ways.
• All matter exists in specific states (e.g. solid, liquid, gas, plasma) and has characteristic chemical and physical properties. All matter has characteristic chemical and physical properties which can be described, and a variety of quantities can be compared (Conservation of Matter).
• Matter can be separated using procedures based on characteristic properties.
• Chemical reactions are processes in which atoms are rearranged into different combinations of molecules. After a chemical reaction, a new set of chemical properties can be observed.
• Elements are pure substances that can not be broken down by routine laboratory procedures; compounds are pure substances that are formed by the combination of elements in definite proportions. All forms of matter are composed of one or more of the elements
• The Periodic Table of Elements is both a tool and an organized arrangement of the elements that demonstrates the underlying atomic structure of the elements.
• There are measurable properties of kinetic and potential energy. Energy cannot be created nor destroyed.
• Different simple machines produce different mechanical advantages.
• There are measurable changes as energy is transferred or transformed.
• The world population uses both renewable and nonrenewable resources.
• The world is affected by the interrelationship of science and technology.
• New technology continually impacts human activity.
• Experiments must be controlled and have reproducible results.
• Scientists identify, determine, compare, and control variables. Scientists must be objective and bias free when examining their work. Scientists communicate their results using various methods.
• Scientists use models to predict change.
• Safety is a primary concern with all laboratory techniques.

Essential Questions - most important “big picture” questions students should be able to answer after completing learning activities.

• What is a testable question that leads to a proposed hypothesis? How is a testable question developed?

• How do scientists design a plan for investigating a testable questions? How is an investigation organized?

• How do scientists develop and perform a scientific investigation? What are the independent/manipulated and dependent/responding variables? What is the standard of control?

• What are the appropriate tools, technologies, and measurement systems used by scientists?

• How do scientists interpret and evaluate data? How do scientists infer/predict past and future events?

• What new questions have arisen based on unexpected results of the investigation?

• How is scientific information effectively communicated to specific audiences?

• What is the difference between a physical and chemical change? How do quantities compare before and after a chemical/physical change (Conservation of Matter).

• How can substances be separated chemically or physically? How do scientists describe chemical changes?

• How can matter be classified?

• What does the arrangement of elements in The Periodic Table of Elements tell us about an element?

• How can force and motion be identified and measured?

• How do you recognize the advantages of different simple machines?

• How can we recognize the changes in energy? How would you utilize data to explain changes in energy?

• What are the differences between and uses of renewable and nonrenewable resources?

• What are the advantages and disadvantages of using technology to solve problems?

• How has technology influenced the way people work? What are advantages/disadvantages created by new technology? How do people use science and technology in their professional lives?

• How do controlled/uncontrolled variables affect the outcomes of experiments?

• How do you identify, compare, and control variables in an investigation?

• How does bias, opinion, and evidence affect the way science is communicated in various media?

• What are some different sources and methods a scientist uses to collect and record data?

• How can models help us predict future outcomes.

• What are safe laboratory practices?

Standards
Highest Frequency Standards  High Frequency Standards  Other Standards & E-skills

 
Standard 1: Students apply the process of scientific investigation and design, conduct, communicate about, and evaluate such investigations.
Standard 1 Benchmarks:     Grades 6-8
1. ask questions and state hypotheses that lead to different types of scientific investigations (for example: experimentation, collecting specimens, constructing models, researching scientific literature)
2. use appropriate tools, technologies and metric measurements to gather and organize data and report results 
3. interpret and evaluate data in order to formulate logical conclusions 
4. demonstrate that scientific ideas are used to explain previous observations and to predict future events (for example: plate tectonics and future earthquake activity)
5. identify and evaluate alternative explanations and procedures  
6. communicate results of their investigations in appropriate ways (for example: written reports, graphic displays, oral presentations) 

Standard 2: Physical Science: Student know and understand common properties, forms, and changes in matter and energy. (Focus: Physics and Chemistry)
Standard 2 Benchmarks:     Grades 6-8
1.  physical properties of solids, liquids, gases and the plasma state and their changes can be explained using the particulate nature of matter model
2.  mixtures of substances can be separated based on their properties (for example: solubility, boiling points, magnetic properties, densities and specific heat)
3.  mass is conserved in a chemical or physical change 
4.  mass and weight can be distinguished  
5.  all matter is made up of atoms that are comprised of protons, neutrons and electrons and when a substance is made up of only one type of atom it is an element 
6.  when two or more elements are combined a compound is formed which is made up of molecules  
7.  quantities ( for example: time, distance, mass, force ) that characterize moving objects and their interactions within a system  (for example, force, speed, velocity,  potential energy, kinetic energy)  can be described, measured and calculated
8.  that there are different forms of energy and those forms of energy can be transferred and stored ( for example: kinetic, potential) but total energy is conserved
9.  electric circuits provide a means of transferring electrical energy when heat, light, sound, magnetic effects and chemical changes are produced 
10.  white light is made up of different colors that correspond to different wavelengths 

Standard 3: Life Science: Students know and understand the characteristics and structure of living things, the processes of life, and how living things interact with each other and their environment. (Focus: Biology – anatomy, Physiology, Botany, Zoology, Ecology)
Standard 3 Benchmarks:     Grades 6-8   
1.  classification schemes can be used to understand the structure of organisms 
2.  human body systems have specific functions and interaction ( for example: circulatory and respiratory, muscular and skeletal)
3.  there is a differentiation among levels of organization
4.  multi-cellular organisms have a variety of ways to get food and other matter to their cells  (for example: digestion, transport of nutrients by circulatory system)
5.  photosynthesis and cellular respiration are basic processes of life  (for example, set up a terrarium or aquarium and make changes such as blocking out light)
6.  different types of cells have basic structures, components and functions ( for example: cell membrane, nucleus, cytoplasm, chloroplast, single-celled organisms in pond water, Elodea, onion cell, human cheek cell)
7.  there are non-communicable conditions and communicable diseases ( for example: heart disease and chicken pox ) 
8.  there is a flow of energy and matter in an ecosystem ( for example: as modeled in a food chain, web, pyramid, decomposition )
9.  asexual and sexual cell reproduction/division can be differentiated
10.  chromosomes and genes play a role in heredity (for example, genes control traits, while chromosomes are made up of many genes) 
11.  changes in environmental conditions can affect the survival of individual organisms, populations, and entire species  
12.  changes or constancy in groups of organisms over geologic time can be revealed through evidence
13.  individual organisms with certain traits are more likely than others to survive and have offspring.   

Standard 4: Earth and Space Science: Students know and understand the processes and interactions of Earth’s systems and the structure and dynamics of Earth and other objects in space. (Focus: Geology, Meteorology, Astronomy, Oceanography)
Standard 4 Benchmarks:     Grades 6-8    
1.  inter-relationships exist between minerals, rocks, and soils
2.  humans use renewable and nonrenewable resources (for example: forests and fossil fuels)
3.  natural processes shape the Earth’s surface (for example: landslides, weathering, erosion, mountain building, volcanic activity) 
4.  major geological events such as earthquakes, volcanic eruptions, and mountain building are associated with plate boundaries and attributed to plate motions  
5.  fossils are formed and used as evidence to indicate that life has changed through time 
6.  successive layers of sedimentary rock and the fossils contained within them can be used to confirm age, geologic time, history, and changing life forms of the Earth; this evidence is affected by the folding, breaking and uplifting of layers
7.  the atmosphere has basic composition, properties, and structure (for example: the range and distribution of temperature and pressure in the troposphere and stratosphere
8.  atmospheric circulation is driven by solar heating (for example: the transfer of energy by radiation, convection, conduction)
9.  there are quantitative changes in weather conditions over time and space (for example: humidity, temperature, air pressure, cloud cover, wind, precipitation ) 
10.  there are large-scale and local weather systems (for example: fronts, air masses, storms) 
11.  the world’s water is distributed and circulated through oceans, glaciers, rivers, groundwater, and atmosphere 
12.  the ocean has a certain composition and physical characteristics (for example: currents, waves, features of the ocean floor, salinity, and tides) 
13.  there are characteristics (components, composition, size) and scientific theories of origin of the solar system 
14.  relative motion, axes tilt and positions of the Sun, Earth, and Moon have observable effects (for example: seasons, eclipses, moon phases)
15.  the universe consists of many billions of galaxies (each containing many billions of stars) and that vast distances separate these galaxies and stars from one another and from the Earth 
16.  technology is needed to explore space (for example: telescopes, spectroscopes, spacecraft, life support systems)

Standard 5: Students understand that the nature of science involves a particular way of building knowledge and making meaning of the natural world.
Standard 5 Benchmarks:     Grades 6-8
1.  a controlled experiment must have comparable results when repeated 
2.  scientific knowledge changes as new knowledge is acquired and previous ideas are modified (for example: through space exploration)
3.  contributions to the advancement of science have been made by people in different cultures and at different times in history 
4.  models can be used to predict change (for example: computer simulation, video sequence, stream table)
5.  there are interrelationships among technology and human activity that affect the world 

District 11 Diamond Units/Lessons Overview - includes information about the purpose, goals and structure of these sample instructional units: