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FOURTH GRADE SCIENCE INTERNET RESOURCES
Welcome to internet science resources!
Check out the new GENERAL SCIENCE SITES page
and the links below.
If you have comments on any of the sites or
a site that you think should be included in the list, please email
Elasha Morgan.
| Science Benchmark
Matter on Earth cycles from one form to another. The cycling
of matter on Earth requires energy. The cycling of water is
an example of this process. The sun is the source of energy
for the water cycle. Water changes state as it cycles between
the atmosphere, land, and bodies of water on Earth. |
STANDARD I: Students will understand that water changes state
as it moves through the water cycle.
Objective 1: Describe the relationship between
heat energy, evaporation and condensation of water on Earth.
a. Identify the relative amount and kind of water found in various
locations on Earth (e.g., oceans have most of the water, glaciers
and snowfields contain most fresh water).
b. Identify the sun as the source of energy that evaporates water
from the surface of Earth.
c. Compare the processes of evaporation and condensation of water.
d. Investigate and record temperature data to show the effects of
heat energy on changing the states of water.
Evaporation
and Condensation - Students explore condensation and evaporation.
USGS Water Resources
of Utah; this site is loaded with Water Science for schools,
Water Data, Projects, a great, Great Salt Lake page, and students
can even ask questions.
Objective 2: Describe the water cycle.
a. Locate examples of evaporation and condensation in the water
cycle (e.g., water evaporates when heated and clouds or dew forms
when vapor is cooled).
b. Describe the processes of evaporation, condensation, and precipitation
as they relate to the water cycle.
c. Identify locations that hold water as it passes through the water
cycle (e.g., oceans, atmosphere, fresh surface water, snow, ice,
and ground water).
d. Construct a model or diagram to show how water continuously moves
through the water cycle over time.
e. Describe how the water cycle relates to the water supply in your
community.
EPA:
The Water Cycle at Work
Puzzled
about Hydropower? All the answers are here. Galleries,
lessons, activities links, all about water and the water cycle.
Science language students should
use:
vapor, precipitation, evaporation, clouds, dew, condensation, temperature,
water cycle
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| Science Benchmark
Weather describes conditions in the atmosphere at a certain
place and time. Water, energy from the sun, and wind create
a cycle of changing weather. The sun's energy warms the oceans
and lands at Earth's surface, creating changes in the atmosphere
that cause the weather. The temperature and movement of air
can be observed and measured to determine the effect on cloud
formation and precipitation. Recording weather observations
provides data that can be used to predict future weather conditions
and establish patterns over time. Weather affects many aspects
of people's lives. |
STANDARD II: Students will understand that the elements of weather
can be observed, measured, and recorded to make predictions and
determine simple weather patterns.
Objective 1: Observe, measure, and record the
basic elements of weather.
a. Identify basic cloud types (i.e., cumulus, cirrus, stratus clouds).
b. Observe, measure, and record data on the basic elements of weather
over a period of time (i.e., precipitation, air temperature, wind
speed and direction, and air pressure).
c. Investigate evidence that air is a substance (e.g., takes up
space, moves as wind, temperature can be measured).
d. Compare the components of severe weather phenomena to normal
weather conditions (e.g., thunderstorm with lightning and high winds
compared to rainstorm with rain showers and breezes).
Franklin
Institute Online: Weather Science Hotlist
If you really want to get involved, the GLOBE
program aims to link students around the globe into a weather reporting
network to monitor the health of the planet. Training is available
through Utah State University as a scheduled Summer Inservice program.
Utah
Mesonet Outreach
Objective 2: Interpret recorded weather data for
simple patterns.
a. Observe and record effects of air temperature on precipitation
(e.g., below freezing results in snow, above freezing results in
rain).
b. Graph recorded data to show daily and seasonal patterns in weather.c.
Infer relationships between wind and weather change (e.g., windy
days often precede changes in the weather; south winds in Utah often
precede a cold front coming from the north).
UEN:
Internet Weather Links
Objective 3: Evaluate weather predictions based
upon observational data.
a. Identify and use the tools of a meteorologist (e.g., measure
rainfall using rain gage, measure air pressure using barometer,
measure temperature using a thermometer).
b. Describe how weather and forecasts affect people's lives.
c. Predict weather and justify prediction with observable evidence.
d. Evaluate the accuracy of student and professional weather forecasts.
e. Relate weather forecast accuracy to evidence or tools used to
make the forecast (e.g., feels like rain vs. barometer is dropping).
National Weather
Service
Utah Climate Center.
This is the source for Utah climate information. It also links to
other sources of climate information.
The Weather Channel
Utah
Mesonet
Utah
Weather Center
Science language students should
use:
atmosphere, meteorologist, freezing, cumulus, stratus, cirrus, air
pressure, thermometer, air temperature, wind speed, forecast, severe,
phenomena, precipitation, seasonal, accuracy, barometer, rain gauge,
components
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| Science Benchmark
Earth materials include rocks, soils, water, and gases. Rock
is composed of minerals. Earth materials change over time from
one form to another. These changes require energy. Erosion is
the movement of materials and weathering is the breakage of
bedrock and larger rocks into smaller rocks and soil materials.
Soil is continually being formed from weathered rock and plant
remains. Soil contains many living organisms. Plants generally
get water and minerals from soil. |
STANDARD III: Students will understand the basic properties
of rocks, the processes involved in the formation of soils, and
the needs of plants provided by soil.
Objective 1: Identify basic properties of minerals
and rocks.
a. Describe the differences between minerals and rocks.
b. Observe rocks using a magnifying glass and draw shapes and colors
of the minerals.
c. Sort rocks by appearance according to the three basic types:
sedimentary, igneous and metamorphic (e.g., sedimentary–rounded-appearing
mineral and rock particles that are cemented together, often in
layers; igneous–with or without observable crystals that are
not in layers or with or without air holes or glasslike; metamorphic
–crystals/minerals, often in layers).
d. Classify common rocks found in Utah as sedimentary (i.e., sandstone,
conglomerate, shale), igneous (i.e., basalt, granite, obsidian,
pumice) and metamorphic (i.e., marble, gneiss, schist).
Rocks
and Minerals is loaded with links, information, and activities
to help students with their investigations.
Rock
Hounds has rock collecting, rock cycle, search helps, lessons
and activities, and a quiz, a great site for students!
This elementary level dichotomous ROCK
KEY will basically categorize rocks as igneous, metamorphic,
or sedimentary. Teacher assistance will be necessary to interpret
some of the descriptors.
Utah
Links has links to Utah rocks and minerals, collecting rules
and more.
Objective 2: Explain how the processes of weathering
and erosion change and move materials that become soil.
a. Identify the processes of physical weathering that break down
rocks at Earth's surface (i.e., water movement, freezing, plant
growth, wind).
b. Distinguish between weathering (i.e., wearing down and breaking
of rock surfaces) and erosion (i.e., the movement of materials).
c. Model erosion of Earth materials and collection of these materials
as part of the process that leads to soil (e.g., water moving sand
in a playground area and depositing this sand in another area).
d. Investigate layers of soil in the local area and predict the
sources of the sand and rocks in the soil.
Separating
Soil Particles is a lesson plan for an activity to investigate
the soil particles from samples that could be collected locally
by students.
Erosion
- An AskERIC lesson plan
Erosion
- A lesson that explores types of erosion and provides hands-on
learning
Weathering
- Great background info site--defines all types of weathering; pictures
too
Weathering
Away - A coded message--what breaks down soil?
Objective 3: Observe the basic components of soil
and relate the components to plant growth.
a. Observe and list the components of soil (i.e., minerals, rocks,
air, water, living and dead organisms) and distinguish between the
living, nonliving, and once living components of soil.
b. Diagram or model a soil profile showing topsoil, subsoil, and
bedrock, and how the layers differ in composition.
c. Relate the components of soils to the growth of plants in soil
(e.g., mineral nutrients, water).
d. Explain how plants may help control the erosion of soil.
e. Research and investigate ways to provide mineral nutrients for
plants to grow without soil (e.g., grow plants in wet towels, grow
plants in wet gravel, grow plants in water).
We
Study Soil Because . . . Learn about Soil
Science Basics, Soil
and the Environment, more . . . Take some time to explore this
site!
The
Great Plant Escape: Case #2, Soiled Again To solve this case,
you must find out what soil is, why it is important, and in what
kinds of soil plants grow. Happy digging!
Sammy
Soil -- A downloadable coloring book
Science language students should
use:
mineral, weathering, erosion, sedimentary, igneous, metamorphic,
topsoil, subsoil, bedrock, organism, freeze, thaw, profile, nonliving,
structural support, nutrients
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| Science Benchmark
Fossils are evidence of living organisms from the past and are
usually preserved in sedimentary rocks. A fossil may be an impression
left in sediments, the preserved remains of an organism, or
a trace mark showing that an organism once existed. Fossils
are usually made from the hard parts of an organism because
soft parts decay quickly. Fossils provide clues to Earth's history.
They provide evidence that can be used to make inferences about
past environments. Fossils can be compared to one another, to
living organisms, and to organisms that lived long ago. |
STANDARD IV: Students will understand how fossils are formed,
where they may be found in Utah, and how they can be used to make
inferences.
Objective 1: Describe Utah fossils and explain
how they were formed.
a. Identify features of fossils that can be used to compare them
to living organisms that are familiar (e.g., shape, size and structure
of skeleton, patterns of leaves).
b. Describe three ways fossils are formed in sedimentary rock (i.e.,
preserved organisms, mineral replacement of organisms, impressions
or tracks).
c. Research locations where fossils are found in Utah and construct
a simple fossil map.
Utah
Geologic Survey -- Utah Fossils and Dinosaurs
Utah
Fossil Page -- U of U College of Mines and Earth Sciences; fossils
of various rock deposits and formations in Utah
The Dinosaur
Museum -- Web site for the museum in Blanding, UT
DinoTracks
-- SURWEB Media Show
See other links at this Hotlist
on Utah Fossils
Objective 2: Explain how fossils can be used
to make inferences about past life, climate, geology, and environments.
a. Explain why fossils are usually found in sedimentary rock.
b. Based on the fossils found in various locations, infer how Utah
environments have changed over time (e.g., trilobite fossils indicate
that Millard County was once covered by a large shallow ocean; dinosaur
fossils and coal indicate that Emery and Uintah County were once
tropical and swampy).
c. Research information on two scientific explanations for the extinction
of dinosaurs and other prehistoric organisms.
d. Formulate questions that can be answered using information gathered
on the extinction of dinosaurs.
The Museum
of Paleontology
USGS:
Fossils, Rocks and Time -- Great background information for
teachers. Timelines, definitions, history
Discovery
Channel Fossil Guide
Walking
With Dinosaurs -- A BBC site FULL of information, games, quizzes
Dinosaur
Floor -- Teacher resources, information, and explanations for
extinction
KidsKonnect:
Dinosaurs -- A hotlist with great sites
Science language students should
use:
infer, environments, climate, dinosaur, preserved, extinct, extinction,
impression, fossil, prehistoric, mineral, organism, replacement,
trilobite, sedimentary, tropical
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| Science Benchmark
Utah has diverse plant and animal life that is adapted to and
interacts in areas that can be described as wetlands, forests,
and deserts. The characteristics of the wetlands, forests, and
deserts influence which plants and animals survive best there.
Living and nonliving things in these areas are classified based
on physical features. |
STANDARD V: Students will understand the physical characteristics
of Utah's wetlands, forests, and deserts and identify common organisms
for each environment.
Objective 1: Describe the physical characteristics
of Utah's wetlands, forests, and deserts.
a. Compare the physical characteristics (e.g., precipitation, temperature,
and surface terrain) of Utah's wetlands, forests, and deserts.
b. Describe Utah’s wetlands (e.g., river, lake, stream, and
marsh areas where water is a major feature of the environment) forests
(e.g., oak, pine, aspen, juniper areas where trees are a major feature
of the environment), and deserts (e.g., areas where the lack of
water provided an environment where plants needing little water
are a major feature of the environment).
c. Locate examples of areas that have characteristics of wetlands,
forests, or deserts in Utah.
d. Based upon information gathered, classify areas of Utah that
are generally identified as wetlands, forests, or deserts.
e. Create models of wetlands, forests, and deserts.
Utah
Handbook has information about Utah's biomes.
The Jordan
River Restoration Project has information about efforts to restore
native plants and animals along the Jordan River.
Utah's
Biomes -- An online unit with bacground information, pictures,
resources, activities, and more
Objective 2: Describe the common plants and animals
found in Utah environments and how these organisms have adapted
to the environment in which they live.
a. Identify common plants and animals that inhabit Utah's forests,
wetlands, and deserts.
b. Cite examples of physical features that allow particular plants
and animals to live in specific environments (e.g., duck has webbed
feet, cactus has waxy coating).
c. Describe some of the interactions between animals and plants
of a given environment (e.g., woodpecker eats insects that live
on trees of a forest, brine shrimp of the Great Salt Lake eat algae
and birds feed on brine shrimp).
d. Identify the effect elevation has on types of plants and animals
that live in a specific wetland, forest, or desert. e. Find examples
of endangered Utah plants and animals and describe steps being taken
to protect them.
Objective 3: Use a simple scheme to classify Utah
plants and animals.
a. Explain how scientists use classification schemes.
b. Use a simple classification system to classify unfamiliar Utah
plants or animals (e.g., fish/amphibians/reptile/bird/mammal, invertebrate/vertebrate,
tree/shrub/grass, deciduous/conifers).
Line Drawings of Utah Plants
and Animals.
Objective 4: Observe and record the behavior of
Utah animals.
a. Observe and record the behavior of birds (e.g., caring for young,
obtaining food, surviving winter).
b. Describe how the behavior and adaptations of Utah mammals help
them survive winter (e.g., obtaining food, building homes, hibernation,
migration).
c. Research and report on the behavior of a species of Utah fish
(e.g., feeding on the bottom or surface, time of year and movement
of fish to spawn, types of food and how it is obtained).
d. Compare the structure and behavior of Utah amphibians and reptiles.
e. Use simple classification schemes to sort Utah's common insects
and spiders.
Utah's
Hogle Zoo - Native Utah animals
Science language students should
use:
wetland, forest, desert, adaptation, deciduous, coniferous, invertebrate,
vertebrate, bird, amphibian, reptile, fish, mammal, insect, hibernation,
migration
Common plants: sagebrush, pinyon pine, Utah juniper,
spruce, fir, oak brush, quaking aspen, cottonwood, cattail, bulrush,
prickly pear cactus
Common animals: jackrabbit, cottontail rabbit,
red fox, coyote, mule deer, elk, moose, cougar, bobcat, deer mouse,
kangaroo rat, muskrat, beaver, gopher snake, rattlesnake, lizard,
tortoise, frog, salamander, red-tailed hawk, barn owl, lark, robin,
pinyon jay, magpie, crow, trout, catfish, carp, grasshopper, ant,
moth, butterfly, housefly, bee, wasp, pill bug, millipede
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