Standard 5: Science
Mission: .Scientific literacy encompasses the understanding of key concepts and principles of science; familiarity with the natural world for both its diversity and unity; and use of scientific knowledge and scientific ways of thinking for individual and social purposes (American Association for the Advancement of Science, Science for All Americans).
|
Standard 5.1 Scientific Processes All students will develop problem-solving, decision-making and inquiry skills, reflected by formulating usable questions and hypotheses, planning experiments, conducting systematic observations, interpreting and analyzing data, drawing conclusions, and communicating results.
|
|
Big Idea: Science is a way of thinking about and investigating the world in which we all live. |
|
|
5.1 A. Habits of Mind |
|
|
Essential Questions |
Enduring Understandings |
|
- What constitutes evidence? - When do you know you have enough and the right kind of evidence? - How can this result be best justified and explained to others? |
- Scientific inquiry involves asking scientifically-oriented questions, collecting evidence, forming explanations, connecting explanations to scientific knowledge and theory, and communicating and justifying explanations. |
|
Areas of Focus/Cumulative Progress Indicators |
Comments and Examples |
| By the end of Grade 8: | |
| 1. Evaluate the strengths and weaknesses of data, claims, and arguments |
|
| 2. Communicate experimental findings to others. | |
| 3. Recognize that the results of scientific investigations are seldom exactly the same and that replication is often necessary | |
| 4. Recognize that curiosity, skepticism, open-mindedness, and honesty are attributes of scientists. | |
|
5.1 B. Inquiry and Problem Solving |
|
|
Essential Questions |
Enduring Understandings |
| - What makes a question scientific? | - Scientific inquiry involves asking scientifically-oriented questions, collecting evidence, forming explanations, connecting explanations to scientific knowledge and theory, and communicating and justifying explanations. |
|
Areas of Focus/Cumulative Progress Indicators |
Comments and Examples |
| By the end of Grade 8: | |
| 1. Identify questions and make predictions that can be addressed by conducting investigations. |
Sample Test Items: 1. Explain how you can determine the volume of a solid object, such as a small rock, using only water and either a measuring cup or a graduated cylinder. Use the picture below to answer the question.
2. Predict what will most likely happen (sink or float) to the amber when it is placed in each liquid? Explain the reasons for your hypothesis. 3. A student made this hypothesis. |
|
2. Design and conduct investigations incorporating the use of a control. |
|
| 3. Collect, organize, and interpret the data that result from experiments. | |
|
5.1 C. Safety |
|
|
Essential Questions |
Enduring Understandings |
|
- What does Safety First demand of us in each setting? - What rules are general and what are situation-specific? |
- Safety first! |
|
Areas of Focus/Cumulative Progress Indicators |
Comments and Examples |
| By the end of Grade 8: | |
| 1. Know when and how to use appropriate safety equipment with all classroom materials. |
Sample Test Item: Maria has one glass of pure water and one glass of salt water, which look exactly alike. Maria has decided to boil small samples of water on a hot plate to evaporate the water to identify which sample has salt dissolved in it. Identify the potential hazards of doing so and what Maria should do to keep safe. |
| 2. Understand and practice safety procedures for conducting science investigations. | |
|
Standard 5.2 Science and Society .All students will develop an understanding of how people of various cultures have contributed to the advancement of science and technology, and how major discoveries and events have advanced science and technology.
|
|
|
Big Idea: Science is a way of thinking about and investigating the world in which we all live. |
|
|
5.2 A. Cultural Contributions |
|
|
Essential Questions |
Enduring Understandings |
| - What do we mean in science when we say that we stand on the shoulders of giants? | - Understanding the development of scientific ideas is essential for building scientific knowledge. |
|
Areas of Focus/Cumulative Progress Indicators |
Comments and Examples |
| By the end of Grade 8: | |
|
1. Recognize that scientific theories: |
Instructional Focus: As students study science, they should be aware of the historical context that has impacted the development of various scientific theories and that the body of scientific knowledge is constantly changing. It is not expected that students memorize the specific contributions of individual scientists, but rather they will appreciate the context of their work and how it has impacted what we know about the world in which we live.
Sample Test Item: Inappropriate assessment item for this CPI: |
| 2. Know that scientists are men and women of many cultures who often work together to solve scientific and technological problems. | |
| 3. Describe how different people in different cultures have made and continue to make contributions to science and technology. | |
|
5.2 B. Historical Perspectives |
|
|
Essential Questions |
Enduring Understandings |
| - How do science and technology influence each other? | - Technology evolves at an ever accelerating pace based on the needs and wants of society, and is influenced by cultural, political, and environmental values and constraints. |
|
Areas of Focus/Cumulative Progress Indicators |
Comments and Examples |
| By the end of Grade 8: | |
| 1. Describe the impact of major events and people in the history of science and technology, in conjunction with other world events. |
Sample Test Items: 1. In the mid-1800s, Louis Pasteur proved the germ theory of disease. The impact of his work saved millions of human lives. Which invention made Pasteur’s work possible? A. telescope * B. microscope C. endoscope D. spectroscope
2. According to the above data table, which country is most likely to become a world leader in energy production? Explain the reasons for your choice. |
| 2. Describe the development and exponential growth of scientific knowledge and technological innovations. | |
|
Standard 5.3 Mathematical Applications All students will integrate mathematics as a tool for problem-solving in science, and as a means of expressing and/or modeling scientific theories.
|
|
|
Big Idea: Science cannot be practiced or learned without appreciation of the role of mathematics in discovering and expressing natural laws. Tables, graphs, and equations are alternative ways of representing information or relationships, each with advantages and disadvantages. |
|
|
5.3 A. Numerical Operations, |
|
|
Essential Questions |
Enduring Understandings |
| - How do we use mathematics to model objects, events and relationships in science? | - Mathematics is a tool used to model objects, events, and relationships in the natural and designed world. |
|
Areas of Focus/Cumulative Progress Indicators |
Comments and Examples |
| By the end of Grade 8: | |
|
1. Express quantities using appropriate number formats, such as: |
Instructional Focus: • Beginning to explore the use of significant figures during the middle grades • Understanding the relationship between a phenomenon and the mathematical symbolic representation rather than memorizing formulas and learning algorithms for solving them • Using ratio and proportion to solve problems • Using common prefixes such as milli-, centi-, and kilo- • Converting within a measurement system (e.g., centimeter to meter) • Measuring with accuracy and precision (e.g., length, volume, mass, temperature and time) • Expressing answers to reflect the degree of precision and accuracy of their measurements • Using appropriate Standard International Units (SI) of measurement for mass (kg), length (m), and time (s)
Sample Test Item: |
|
5.3 B. Geometry and Measurement |
|
|
Essential Questions |
Enduring Understandings |
| - How do we use mathematics to model objects, events and relationships in science? | - Mathematics is a tool used to model objects, events, and relationships in the natural and designed world. |
|
Areas of Focus/Cumulative Progress Indicators |
Comments and Examples |
| By the end of Grade 8: | |
| 1. Perform mathematical computations using labeled quantities and express answers in correctly derived units. |
Instructional Focus: Inappropriate assessment
items for this CPI: |
|
5.3 C. Patterns and Algebra |
|
|
Essential Questions |
Enduring Understandings |
| - How do we use mathematics to model objects, events and relationships in science? | - Mathematics is a tool used to model objects, events, and relationships in the natural and designed world. |
|
Areas of Focus/Cumulative Progress Indicators |
Comments and Examples |
| By the end of Grade 8: | |
| 1. Express physical relationships in terms of mathematical equations derived from collected data. |
Instructional Focus: - Understanding the relationship between a phenomenon and the mathematical symbolic representation rather than memorizing formulas and learning algorithms for solving them |
|
5.3 D. Data Analysis and Probability |
|
|
Essential Questions |
Enduring Understandings |
| - How do we use mathematics to model objects, events and relationships in science? | - Mathematics is a tool used to model objects, events, and relationships in the natural and designed world. |
|
Areas of Focus/Cumulative Progress Indicators |
Comments and Examples |
| By the end of Grade 8: | |
|
1. Represent and describe mathematical relationships among variables using: · graphs. · tables. |
Instructional/Assessment Strategies: • Students use graphing calculators and/or spread sheet programs to collect, manage, and report data. Sample Test Items:
1. The graph illustrates the pace that a
runner has set for her warm-up routine. Which time interval shows
her greatest acceleration? Use the illustration below to answer question 2
2. What is the approximate density of Liquid
C?
Which
bacterium would produce disease in the shortest amount of time? C. Bacterium 3 D. Bacterium 4
a. Based on the data table provided below, which of the ships has steadily been moving into shallower water? Justify your choice.
b. How would a new set of data be different than the original data if it ha d been taken in August and a second set of data were taken in January (assume northern hemisphere)? Explain.
|
|
2. Analyze experimental data sets using measures of central tendency: · mean. · mode. · median |
|
| 3. Construct and use a graph of experimental data to draw a line of best fit and identify a linear relationship between variables. | |
| 4. Use computer spreadsheets, graphing and database applications to assist in quantitative analysis of data. | |
| By the end of Grade 12: | |
| 1. Construct and interpret graphs of data to represent inverse and non-linear relationships, and statistical distributions. | |
|
Standard 5.4 Nature And Process Of Technology All students will understand the interrelationships between science and technology and develop a conceptual understanding of the nature and process of technology.
|
|
|
Big Idea: The study of science and technology is interrelated, and as such, can assist in solving problems. |
|
|
5.4 A. Science and Technology |
|
|
Essential Questions |
Enduring Understandings |
| - How do science and technology influence each other? | - The development of technology and advances in science are mutually supportive in driving innovation in both fields. |
|
Areas of Focus/Cumulative Progress Indicators |
Comments and Examples |
| By the end of Grade 6: | |
| Reinforce indicators from previous grade level. | |
|
5.4 B. Nature of Technology |
|
|
Essential Questions |
Enduring Understandings |
| - Are there ways to circumvent physical and social constraints when using technology? | - Physical constraints and social values play a role in limiting the use of technology to solve problems. |
|
Areas of Focus/Cumulative Progress Indicators |
Comments and Examples |
| By the end of Grade 6: | |
| Reinforce indicators from previous grade level. | |
|
5.4 C. Technological Design |
|
|
Essential Questions |
Enduring Understandings |
| - How is the overarching concept of systems related to design and technology? | - Thinking systematically means looking for the relationships between parts. |
|
Areas of Focus/Cumulative Progress Indicators |
Comments and Examples |
| By the end of Grade 6: | |
| 1. Select a technological problem and describe the criteria and constraints that are addressed in solving the problem. | |
|
2. Identify the basic components of a technological system: · input. · process. · output. · feedback |
|
|
Standard 5.5 Characteristics of Life All students will gain an understanding of the structure, characteristics, and basic needs of organisms and will investigate the diversity of life.
|
|
|
Big Idea: The natural world is defined by organisms and life processes which conform to principles regarding conservation and transformation of matter and energy. Knowledge about life processes can be applied to improving human health and well being. |
|
|
5.5 A. Matter, Energy, and Organization in Living Systems |
|
|
Essential Questions |
Enduring Understandings |
| - How is matter transformed, and energy transferred/transformed in living systems? |
- All organisms transfer matter and convert
energy from one form to another. - Both matter and energy are necessary to build and maintain structures within the organism. |
|
Areas of Focus/Cumulative Progress Indicators |
Comments and Examples |
| By the end of Grade 6: | |
| 1. Explain how systems of the human body are interrelated and regulate the body's internal environment. | |
| 2. Identify and describe the structure and function of cells and cell parts. | |
|
5.5 B. Diversity and Biological Evolution |
|
|
Essential Questions |
Enduring Understandings |
|
- How are organisms of the same kind different
from each other? - How does this help them reproduce and survive? |
- Organisms are grouped in taxonomy based upon similarity. |
|
Areas of Focus/Cumulative Progress Indicators |
Comments and Examples |
| By the end of Grade 6: | |
| 1. Describe and give examples of the major categories of organisms and of the characteristics shared by organisms. | |
| 2. Compare and contrast acquired and inherited characteristics in human and other species. | |
|
5.5 C. Reproduction and Heredity |
|
|
Essential Questions |
Enduring Understandings |
| - How does the understanding of manipulation of genetics, reproduction, development and evolution affect the quality of human life? | - The structural and functional characteristics of an organism determine their continued survival over time under changing environmental conditions. |
|
Areas of Focus/Cumulative Progress Indicators |
Comments and Examples |
| By the end of Grade 6: | |
| 1. Describe life cycles of humans and other organisms. | |
|
Standard 5.6 Physical Science - Chemistry All students will gain an understanding of the structure and behavior of matter.
|
|
|
Big Idea: Materials exist throughout our physical world. The structures of materials influence their physical properties, chemical reactivity and use. |
|
|
5.6 A. Structure and Properties of Matter |
|
|
Essential Questions |
Enduring Understandings |
| How do properties of materials determine their use? | The atomic structures of materials determine their properties. |
|
Areas of Focus/Cumulative Progress Indicators |
Comments and Examples |
| By the end of Grade 6: | |
| 1. Recognize that about 100 different elements have been identified and most materials on Earth are made of a few of them | |
| 2. Show that equal volumes of different substances usually have different masses. | |
| 3. Describe the properties of mixtures and solutions, including concentration and saturation. | |
