7th grade
L I F E S C I E N C E F O C U S
1.
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All living organisms are composed of cells, from just one to many trillions, whose details usually are visible only through a microscope.
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Students know cells function similarly in all living organisms.
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Students know the characteristics that distinguish plant cells from animal cells, including chloroplasts and cell walls.
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Students know the nucleus is the repository for genetic information in plant and animal cells.
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Students know that mitochondria liberate energy for the work that cells do and that chloroplasts capture sunlight energy for photosynthesis.
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Students know cells divide to increase their numbers through a process of mitosis, which results in two daughter cells with identical sets of chromosomes.
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Students know that as multicellular organisms develop, their cells differentiate. Genetics
2.
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A typical cell of any organism contains genetic instructions that specify its traits. Those traits may be modified by environmental influences.
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Students know the differences between the life cycles and reproduction methods of sexual and asexual organisms.
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Students know sexual reproduction produces offspring that inherit half their genes from each parent.
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Students know an inherited trait can be determined by one or more genes.
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Students know plant and animal cells contain many thousands of different genes and typically have two copies of every gene. The two copies (or alleles) of the gene may or may not be identical, and one may be dominant in determining the phenotype while the other is recessive.
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Students know DNA (deoxyribonucleic acid) is the genetic material of living organisms and is located in the chromosomes of each cell. Evolution.
3.
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Biological evolution accounts for the diversity of species developed through gradual processes over many generations.
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Students know both genetic variation and environmental factors are causes of evolution and diversity of organisms.
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Students know the reasoning used by Charles Darwin in reaching his conclusion that natural selection is the mechanism of evolution.
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Students know how independent lines of evidence from geology, fossils, and comparative anatomy provide the bases for the theory of evolution.
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Students know how to construct a simple branching diagram to classify living groups of organisms by shared derived characteristics and how to expand the diagram to include fossil organisms.
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Students know that extinction of a species occurs when the environment changes and the adaptive characteristics of a species are insufficient for its survival. Earth and Life History (Earth Sciences)
4.
Evidence from rocks allows us to understand the evolution of life on Earth.
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Students know Earth processes today are similar to those that occurred in the past and slow geologic processes have large cumulative effects over long periods of time.
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Students know the history of life on Earth has been disrupted by major catastrophic events, such as major volcanic eruptions or the impacts of asteroids.
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Students know that the rock cycle includes the formation of new sediment and rocks and that rocks are often found in layers, with the oldest generally on the bottom.
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Students know that evidence from geologic layers and radioactive dating indicates Earth is approximately 4.6 billion years old and that life on this planet has existed for more than 3 billion years.
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Students know fossils provide evidence of how life and environmental conditions have changed.
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Students know how movements of Earth’s continental and oceanic plates through time, with associated changes in climate and geographic connections, have affected the past and present distribution of organisms.
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Students know how to explain significant developments and extinctions of plant and animal life on the geologic time scale. Structure and Function in Living Systems
5.
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The anatomy and physiology of plants and animals illustrate the complementary nature of structure and function.
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Students know plants and animals have levels of organization for structure and function, including cells, tissues, organs, organ systems, and the whole organism.
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Students know organ systems function because of the contributions of individual organs, tissues, and cells. The failure of any part can affect the entire system.
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Students know how bones and muscles work together to provide a structural framework for movement.
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Students know how the reproductive organs of the human female and male generate eggs and sperm and how sexual activity may lead to fertilization and pregnancy.
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Students know the function of the umbilicus and placenta during pregnancy.
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Students know the structures and processes by which flowering plants generate pollen, ovules, seeds, and fruit.
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Students know how to relate the structures of the eye and ear to their functions. Physical Principles in Living Systems (Physical Sciences)
6.
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Physical principles underlie biological structures and functions.
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Students know visible light is a small band within a very broad electromagnetic spectrum.
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Students know that for an object to be seen, light emitted by or scattered from it must be detected by the eye.
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Students know light travels in straight lines if the medium it travels through does not change.
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Students know how simple lenses are used in a magnifying glass, the eye, a camera, a telescope, and a microscope.
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Students know that white light is a mixture of many wavelengths (colors) and that retinal cells react differently to different wavelengths.
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Students know light can be reflected, refracted, transmitted, and absorbed by matter.
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Students know the angle of reflection of a light beam is equal to the angle of incidence.
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Students know how to compare joints in the body (wrist, shoulder, thigh) with structures used in machines and simple devices (hinge, ball-and-socket, and sliding joints).
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Students know how levers confer mechanical advantage and how the application of this principle applies to the musculoskeletal system.
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Students know that contractions of the heart generate blood pressure and that heart valves prevent backflow of blood in the circulatory system. Investigation and Experimentation
7.
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Scientific progress is made by asking meaningful questions and conducting careful investigations.
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Select and use appropriate tools and technology (including calculators, computers, balances, spring scales, microscopes, and binoculars) to perform tests, collect data, and display data.
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Use a variety of print and electronic resources (including the World Wide Web) to collect information and evidence as part of a research project.
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Communicate the logical connection among hypotheses, science concepts, tests conducted, data collected, and conclusions drawn from the scientific evidence.
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Construct scale models, maps, and appropriately labeled diagrams to communicate scientific knowledge (e.g., motion of Earth’s plates and cell structure).
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Communicate the steps and results from an investigation in written reports and oral presentations.