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Welcome
to the
Internet Resources for 7th Grade Integrated Science
Listed sites have been
reviewed and correlated to the NEW core curriculum. Take a moment
to search these sites as many of them have other links that may be
beneficial. Also, please be advised that there are some
interactive sites that may take a moment to download.
Happy Surfing!
Look for:
 Link to 7th
Grade Integrated Science Sci-ber
Text.  Link to the 7th grade Core Experiments.
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Science Benchmark
All matter is made up of atoms that are far too small to see. Atoms are
in
perpetual motion and the more energy they contain the faster they move.
Atoms
combine to form molecules. Matter is made up of atoms and molecules
that have
measurable mass, volume, and density. Density is a measure of the
compactness
of matter. Density determines the way materials in a mixture are
sorted. This
property of matter results in the layering and structure of Earth’s
atmosphere,
water, crust and interior.
Models are used to describe the structure of Earth.
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Standard
I: Students will
understand the structure of
matter.
Objective
1: Describe
the structure of matter in terms
of atoms and
molecules.
a. Recognize that atoms are too small to see.
b. Relate atoms to molecules (e.g., atoms combine to make molecules).
c. Diagram the arrangement of particles in the physical states of
matter (i.e., solid,liquid, gas).
d. Describe the limitations of the models used to represent atoms.
e. Investigate and report how our knowledge of the structure of matter
has been developed over time.
Particle
Adventure contains information
about atoms and
atomic structure.
The Miami
Museum of Science
has interactive lessons on the phases of matter and other topics.
The Physics
2000 site from the Univ. of
Colorado, Boulder contains detailed
information about atomic models.
The Jefferson
Labs site is full of lessons,
reference materials, activities,
games and puzzles.
The Shodor
Edu.
Foundation /UNC site has helpful
college
level
information on atoms.
The Princeton Plasma
Physics Lab provides animated, interactive
information about matter
and atoms.
Spikes
Science Projects contains very
basic information about atoms,
matter and a variety of other topics.
Objective 2: Accurately measure the
characteristics of
matter in different states.
a. Use appropriate instruments to determine mass and volume of solids
and liquids and record data.
b. Use observations to predict the relative density of various solids
and liquids.
c. Calculate the density of various solids and liquids.
d. Describe the relationship between mass and volume to density.
e. Design a procedure to measure mass and volume of gases.
Princeton
Plasma Physics Lab provides animated, interactive information about
density.
The Science
Museum of Minnesota site contains information about mass, volume
and density.
The Sciences
Explorer byThinkQuest contains a density
experiment and links to other information.
Spikes
Science Projects contains very basic information solids, liquids
and gases, plus a variety of other topics.
Fun
with Density is an AskERIC lesson plan.
The Reachout
Michigan site has lesson plans
for Volume
of a Gas and Temperature, Density
and Density
with Balloons.
Objective 3:Investigate the motion of particles.
a.Identify evidence that particles are in constant motion.
b. Compare the motion of particles at various temperatures by measuring
changes in the volume of gases, liquids, or solids.
c. Design and conduct an experiment investigating the diffusion of
particles.
d. Formulate and test a hypothesis on the relationship between
temperature and motion.
e. Describe the impact of expansion and contraction of solid materials
on the design of buildings, highways, and other structures.
Miami
Museum of
Science has interactive lessons
on the motion of particles.
Motion
of Molecules is an AskERIC
lesson plan.
The Sciences
Explorer byThinkQuest contains a
egg
drop experiment and a heated
fan experiment with links.
The Reachout
Michigan site has a lesson plan
for the Diffusion
of Molecules and Expansion
of Water as it Freezes.
Spikes
Science Projects contains very
basic information about diffusion
of gases
and expansion/contraction
of soilds.
Link to
the 7th Grade Sci-berText .
Link to the 7th grade Core Experiments.
Standard II:
Students
will understand the
relationship
between properties of matter and Earth’s structure.
Objective 1:
Examine the effects of density and particle
size on the behavior of materials in mixtures.
a. Compare the density of various objects to the density of known earth
materials.
b. Calculate the density of Earth materials (e.g., rocks, water, air).
c.Observe and describe the sorting of Earth materials in a mixture
based on density and particle size (e.g. sorting grains of sand of the
same size with different densities,sort materials of different particle
size with equal densities).
d. Relate the sorting of materials in streambeds, road cuts or beaches
to the density and particle size of those materials.
e. Design and conduct an experiment that provides data on the natural
sorting of various earth materials.
The Structure
of the Earth site contains notes from a Phys. Geology course.
Simple outline of information.
The Earth
Science Australia site contains information about sorting and gives
examples.
Spikes
Science Projects contains very basic information about sorting
and particle
shape.
Objective 2: Analyze how density affects
Earth's structure.
a. Compare the densities of Earth's atmosphere, water, crust, and
interior layers.
b. Relate density to the relative positioning of Earth's atmosphere,
water, crust and interior.
c. Model the layering of Earth's atmosphere, water, crust, and interior
due to density differences.
d. Distinguish between models of Earth with accurate and inaccurate
attributes.
The Saddleback College site has a page about the densities
of the layers of Earth.
The Univ. of
North
Dakota Volcano
World site has an interactive site about the layers of the Earth.
The Univ.
of Arizona SEDS site contains all of the basics about the Earth's
structure.
The SolarViews
site contains detailed information about the Earth's interior.
The 3-D
Earth Structure activity and extensions were developed by a Prof.
Braile at Purdue Univ.
The Earth's
Interior activity and extensions were developed by a Prof. Braile
at Purdue Univ.
Link to
the 7th Grade Sci-berText .
 Science language
students should use: atmosphere, atom, crust, density, diffusion, gas,
liquid, models, mass, matter, molecule, particle, solid, temperature,
heat energy, volume
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Science Benchmark
Living things are made of smaller structures whose
functions enable the
organisms to survive. The basic unit of structure in all living things
is the
cell. Cells combine to form tissues that combine to form organs. While
all
cells have common structures, there are differences between plant and
animal
cells. Cell details are usually visible only through a microscope.
Reproduction passes information from parent to
offspring. Asexual
reproduction requires one parent and produces nearly identical
offspring.
Sexual reproduction requires two parents, and provides variety in a
species.
This variety may allow the species to adapt to changes in the
environment and
help the species survive. A species may change due to the passing of
traits
naturally or by techniques used and developed by science. Genetic
information
is passed on in a predictable manner.
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Standard
III: Students will understand that
the
organs in an
organism are made of cells that have
structures and perform specific life functions.
Objective 1: Observe and
describe cellular
structures and functions.
a. Use
appropriate
instruments to
observe, describe and compare various types of cells (e.g., onion,
diatoms).
b. Observe and
distinguish
the cell
wall, cell membrane, nucleus, chloroplast, and cytoplasm of cells.
c. Differentiate between
plant and
animal cells based on cell wall and cell membrane.
d. Model the cell
processes
of
diffusion and osmosis and relate this motion to the motion of
particles.
e. Gather information to
report on
how the basic functions of organisms are carried out within cells
(e.g., extract energy from food, remove waste, photosynthesis).
Virtual
Cell Tour
is an animated tour thorugh a cell. It also has worksheets to use.
Dr. Saul's
Organize It program allows you
to quiz yourself on plant and animal
cell organization.
The Biology
Project from the Univ. of
Arizona has a section on cell biology and
genetics.
Egg-cellent
Ideas for Osmosis and Diffusion
is a lesson plan from the Science
Spot.
Biology
Lesson Plan links from the Science
Spot.
Boston Museum of Science
give instructions on how to make a
homemade
microscope (40x or 100x). EASY
Westminister
Seconday Schools site with
clickable diagrams of cells and
descriptions of organelles.
Cells Alive has more
clickable plant and animal cell
diagrams.
The Bullis School site
contains a slide
presentation on cell organelles.
Mr.
Lubey's
Biology help site has
interactive lessons on all the basics of
cells.
Portland State
University tutorial on Osmosis
and Diffusion.
San Diego State
University Biology Lessons
site contains many adaptable activities including one on Osmosis.
Cell Structures and
Processes:
Clickable tour of the organelles and cell processes.
The Sciences
Explorer byThinkQuest
contains a virtual
cell tour and links to other
information.
Objective 2: Identify and
describe the
function and inter-dependence of various organs and tissues.
a. Order the levels
of
organization
from simple to complex (e.g., cell, tissue, organ, system, organism).
b. Match a particular
structure to
the appropriate level (e.g. heart to organ, cactus to organism, muscle
to tissue).
c. Relate the structure
of an
organ
to its component parts and the larger system of which it is a part.>
d. Describe how the
needs of
organisms at the cellular level for food, air, and waste removal are
met by tissues and organs (e.g. lungs provide oxygen to cells, kidneys
remove wastes from cells).
The California State Univ./Los Angeles site has a
page that
describes levels
of organization for 10th grade
Biology. Adaptable.
Psionica
Online Learning- Biology site
covers many topics including Tissue,
Organs and Systems.
Camilla Senior Public
School Life
Systems
site has many links to cells, levels of organization, etc.
Standard IV:
Students
will
understand that
offspring inherit traits that make them more or less suitable
to
survive in the
environment.
Objective 1: Compare how sexual and
asexual
reproduction passes
genetic information from parent to offspring.
a. Distinguish
between
inherited
and acquired traits.
b. Contrast the exchange
of
genetic
information in sexual and asexual reproduction (e.g. number of parents,
variation of genetic material).
c. Cite examples of
organisms
that
reproduce sexually (e.g., rats, mosquitoes, salmon, sunflowers) and
those that reproduce asexually (e.g., hydra, planaria, bacteria, fungi,
cuttings from house plants).
d. Compare inherited
structural
traits of offspring and their parents.
Dolan
DNA Learning Center site
allows you to explore basic and
molecular
genetics with amazing animated segments.
The Biology
Project from
the Univ. of Arizona has a section on cell biology and genetics.
The Genetics
Science Learning
Center at the U of Utah has information on cells and genetics and
materials and kits to carry out extended
activites.
How
Does Chance Influence Inheritance? is an Access Excellence
lesson plan.
Asexual
reproduction information including specific types at About.com.
General types of animal
sexual reproduction at About.com.
Objective
2: Relate the adaptability of organisms in an
environment
to their inherited traits and structures.
a. Predict
why
certain traits
(e.g., structure of teeth, body structure, coloration) are more likely
to offer an advantage for survival of an organism.
b. Cite examples of traits
that
provide an advantage for survival in one environment but not other
environments.
c. Cite examples of changes
in
genetic traits due to natural and man-made influences (e.g. mimicry in
insects, plant hybridization to develop a specific trait, breeding of
dairy cows to produce more milk).
d. Relate the structure of
organs
to an organism’s ability to survive in a specific environment (e.g.,
hollow bird bones allow them to fly in air, and hollow structure of
hair insulates animals from hot or cold, dense root structure to grow
in dense soil, fish fins to move in water).
Desert
USA
describes adaptations of desert animals.
A PBS lesson plan about nocturnal
animals in the Canyonlands discusses animal adaptation.
A PBS lesson plan about mammal
adaptations has 3 adaptable activities. The links and video's
are helpful.
The Nature Works
site has a variety of lessons, activities and links dealing with
animal adaptations.
Link
to
the 7th Grade
Sci-berText.
Link to the 7th grade Core Experiments.
Science
language
students
should use: asexual reproduction, genetics, nucleus, organ,
organism, osmosis, system,
tissue, inherited trait, offspring, sexual
reproduction, cytoploasm, diffusion, membrane, chloroplast, cell, cell
wall
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Science Benchmark
Classification schemes reflect orderly patterns
and
observable
distinctions
among objects and organisms. One of the most general distinctions among
organisms is between plants and animals. Biologists consider an
organism's
structural features more important for classifying organisms than
behavior or
general appearance. Geologists classify earth materials based upon
structure.
Chemists classify matter based upon structure. Classification systems
may
change as science develops new knowledge.
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Standard V:
Students will
understand that
structure is used to develop classification systems.
Objective
1: Classify based
on observable
properties.
a. Categorize
non-living
objects
based on external structures (e.g., hard, soft).
b. Compare
living, once
living, and
non-living things.
c. Defend
the importance of
observation in scientific classification.
d. Demonstrate that there are
many
ways to classify things.
The
Virginia
Standards of Learning site has a
classification lab using fingerprints.
The Marshall Univ. site
contains a simple classification
activity.
The Lesson Plans
Page.com site has an adaptable activity on Classifying
the
Solar System.
The Boston Museum of
Science activity called Making
Collections starts
students collecting and drawing samples.
Objective
2: Use and
develop a simple
classification system.
a. Using a
provided classification scheme, classify things (e.g., shells, leaves,
rocks,
bones, fossils, weather, clouds, stars, planets).
b. Develop a classification
system
based on observed structural characteristics.
c. Generalize rules for
classification.
d. Relate the importance of
classification systems to the development of science knowledge.
e.
Recognize that
classification is
a tool made by science to describe perceived patterns in nature.
The
Sidewell
Friends School site contains a classification
lab with background
information. Clickable pictures.
Science NetLinks
activity Classify
That uses the site Classifying
Critters to help students learn
to classify organisms.
Microbe.org Creepy
Critters activity that involves
simple classification.
Mr.
Lubey's
Biology help site has
interactive lessons on all the basics of
classification.
The Classifying
Animals page on the Fact Monster
site provides basic classification
information.
The Palaeos.com site
describes the importance
of classification.
An AskERIC lesson plan
on the Variety
of Life on Earth.
Objective
3:
Classify organisms using an orderly
pattern based upon structure.
a. Identify types
of
organisms that
are not classified as either plant or animal.
b. Arrange organisms
according to
kingdom (i.e., Plant, animal, monera, fungi, protist).
c. Use a classification key
or
field guide to identify organisms.
d. Report on changes in
classification systems as a result of new information or technology.
Michigan
State University's Microbe
World
has great visual links to microbial organisms in different environments.
Dr.
Saul's Organize Itprogram
allows you to quiz yourself on the
classification of living things.
The EMCC On-Line Biology Book site contains detailed notes
on classification.
Be sure to take a look at
the links!
PC Physical
Anthropology tutorial ofClassification
of Living Things
site is detailed and has suggested links.
The QUT contains an
exercise using a Dichotomous
Key and inforamtion in a Teacher's
Corner.
Saskatchewan Learning Biology 20
Online has a section of Modules
on the Diversity
of Life with lessons and
activities.
ENature.com
has
online
field guides.
UEN.org link to the Leaf
Classification activity.
Link
to
the 7th Grade Sci-berText .
Science
language students
should
use: classification, classification key, kingdom, organism,
species
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