In this activity, students investigate data from Hurricane Ivan, the September 2004 …
In this activity, students investigate data from Hurricane Ivan, the September 2004 storm that devastated the Caribbean Islands and the Alabama Gulf Coast before looping across Florida and back into the Gulf of Mexico, where it regenerated into a new storm system. They will analyze data on the storm's location, windspeed, and barometric pressure, develop study questions, and map the hurricane's position at selected intervals.
In this investigation, students locate a round or spherical naturally-occurring rock and …
In this investigation, students locate a round or spherical naturally-occurring rock and take notes about its location and their reasons for selecting it. After measuring the rock and assessing some of its properties, they will answer a series of questions to determine the type of environment that would create a round rock, as well as the different types of weathering and components of the rock's internal structure that might contribute to its shape.
In this activity, students identify spirals and other shapes present in nature …
In this activity, students identify spirals and other shapes present in nature and discuss at what sizes or scales these shapes exist. Examples include a hurricane, foraminifera, nautilus, and a galaxy. They will discuss the differences and similarities of each of these spirals and investigate the powers of ten that identify the scales at which these different examples exist.
This experiment uses the heating of water to explore the concepts of …
This experiment uses the heating of water to explore the concepts of density and volume. Students learn about the transfer of heat energy within the atmosphere, hydrosphere, and Earth's interior, and connect this transfer to differences in density, which in turn result in motion. As part of the investigation, students will also become familiar with the Celsius and Fahrenheit temperature scales.
In this activity, students organize a set of fossils chronologically and learn …
In this activity, students organize a set of fossils chronologically and learn to correlate, based on fossil evidence, the stratigraphy of one location with that of an adjacent location. Earth Science Reference Tables are used to identify the epoch of occurrence and the age of each of the fossil specimens. Students will become familiar with the concept of index fossils and understand what makes a good index fossil.
This exercise was designed to address student misconceptions about why the Moon …
This exercise was designed to address student misconceptions about why the Moon exhibits phases. Using a sketchbook, digital camera, or flex cam, a student sits at the center of a darkened room illuminated by a single light source in a stationary position. Stools are set up surrounding the student in the center and other students take those positions, always keeping their faces toward the center. The center student sketches or take pictures of the faces at each of the positions. Substituting a sphere (such as a ball) for the students' faces provides an even more vivid illustration of the shadowing of the sphere and connects directly to the rationale for lunar phases.
Students study magnetic field by using a classroom-made magnetometer. They use iron …
Students study magnetic field by using a classroom-made magnetometer. They use iron filings to reveal the magnetic field lines and record their observations on a sketch map.
Students simulate operating an iron mine, from choosing property to writing an …
Students simulate operating an iron mine, from choosing property to writing an environmental impact statement to setting up the mining operation. Chocolate chip cookies (with the chocolate chips representing iron ore) are used for this experiment. Students are challenged to operate the most profitable and environmentally sound mine they can.
In this activity, candy models are used to demonstrate the features of …
In this activity, candy models are used to demonstrate the features of the Earth, including its internal structure and layers. Students learn why models are essential in Earth science and answer questions about how their candy models do and do not compare with the actual Earth.
In this activity, students play the roles of detectives investigating the loss …
In this activity, students play the roles of detectives investigating the loss of a city's water supply by evaporation. They will design an experiment to see whether heat or wind causes the greater loss of water, conduct the experiment, and write a report detailing their findings.
The Adirondack Mountains tour is part of the New York Landscape Regions …
The Adirondack Mountains tour is part of the New York Landscape Regions Collection of Google Earth Tours, created by a group of New York State science educators. This tour provides an introduction to the geology of the Great Range and the High Peaks as viewed from Algonquin Peak. It also addresses the issue of acid rain, which is a persistent environmental concern in the Adirondacks.
The Allegheny Plateau tours are part of the New York Landscape Regions …
The Allegheny Plateau tours are part of the New York Landscape Regions Collection of Google Earth Tours, created by a group of New York State science educators. These tours showcase examples of Allegheny geology, including the geomorphology of glacial features near Tully, New York, southern Cayuga Lake, the geology and geomorphology of Letchworth State Park and its waterfalls, as well as waterfalls and creeks in the Ithaca Gorges. Schoharie Creek can be toured from its mouth to its source, the St. Lawrence Chesapeake and Valley Heads Moraine can be investigated to examine drainage patterns, and another tour investigates the unique geology and ecology of the Rome Sand Plains. Environmental tours also address the 2006 flooding in the Allegheny Plateau near Port Jarvis and Livingston Manor and provide an overview of the water supply system of the City of New York.
The Atlantic Coastal Plain tour is part of the New York Landscape …
The Atlantic Coastal Plain tour is part of the New York Landscape Regions Collection of Google Earth Tours, created by a group of New York State science educators. This tour introduces students to glacial erratics on Long Island, the Ronkonkoma terminal moraine, and the Rock Hill erratic. Coastal erosion and deposition can be studied by viewing dunes, beaches, and wave cut banks.
The Champlain Lowlands tour is part of the New York Landscape Regions …
The Champlain Lowlands tour is part of the New York Landscape Regions Collection of Google Earth tours, created by a group of New York State science educators. This tour includes views of the gorge of the Ausable River, cut through Late Cambrian Potsdam Sandstone, and the geology of the Champlain Thrust Fault, a low angle thrust fault formed as the proto-Atlantic Ocean closed during the Taconic Oregeny. When it was still connected to the ocean, Lake Champlain was home to whales, whose fossils are now entombed in the lake sediments. The tour also includes classroom activities for students.
The Erie Ontario Lowlands tour is part of the New York Landscape …
The Erie Ontario Lowlands tour is part of the New York Landscape Regions Collection of Google Earth tours. This tour includes glacial history, features, and views of Niagara Falls, the Niagara Escarpment, current and former spillways, and the locks at Lockport, New York. Students can also learn about the geology and glacial history of Canandaigua Lake, one of New York's Finger Lakes, which discharges into the Lowlands. There is also a lab activity in which students analyze maps, images, and information to perform an environmental assessment of the Cascade Mill development.
The Hudson Highlands tour is part of the New York Landscape Regions …
The Hudson Highlands tour is part of the New York Landscape Regions Collection of Google Earth Tours, created by a group of New York State science educators. This tour introduces Hudson Highlands geology, including glaciology at Bear Mountain, views of the Highlands, and the Ramapo Fault to the south. It also offers other information about the area, including some animals, New York City's water supply, and the Great Swamp.
The Hudson Mohawk Lowlands tour is part of the New York Landscape …
The Hudson Mohawk Lowlands tour is part of the New York Landscape Regions Collection of Google Earth tours, created by a group of New York State science educators. This tour introduces students to limestone quarrying along the western shore of the Hudson River south of Catskill, New York. They can follow the courses of the Mohawk River and Erie Canal eastward to the Cohoes Falls and the confluence of the Mohawk with the Hudson River. It also provides a look at issues involved with the cleanup of PCB-laden sediments in the Hudson River.
The Newark Lowlands tour is part of the New York Landscape Regions …
The Newark Lowlands tour is part of the New York Landscape Regions Collection of Google Earth Tours created by a group of New York State science educators. This tour lets students see the Ramapo Fault at the Lowlands' northwestern boundary and the Palisades Sill on the western shore of the Hudson River. The Sparkill Gap, a pre-Ice Age weak spot in the Palisades Sill through which the Hudson River once flowed, can be observed. There is also an activity in which students explore the economic, social, and environmental issues associated with constructing the Tappan Zee Bridge over the Hudson River.
The St. Lawrence Lowlands tour is part of the New York Landscape …
The St. Lawrence Lowlands tour is part of the New York Landscape Regions Collection of Google Earth Tours. This tour allows students to explore the Thousand Islands, formed of granite which has withstood the erosive energy of the St. Lawrence River, creating thousands of islands ranging in size from single rocks to over 25 square miles. There is also an activity in which students map some of the many shipwrecks that have accumulated at the entrance to the St. Lawrence Seaway.
The Taconic Mountains tour highlights the geology and natural environment of several …
The Taconic Mountains tour highlights the geology and natural environment of several landscape regions, including the structure of the Highlands Province basement rocks, which were affected by the Taconic Orogeny. Students can view biotite-rich schists and the tight isoclinic folds of the Walloomsac Formation, as well as the Taconic angular unconformity at the south end of Becraft Mountain. Bedding thrusts are also evident within the Roundout Formation and overlying Manlius Formation. They can also examine metamorphosed Briarcliff Dolostone containing yellow, white and black chert layers and Everett Phylite, which represents a metamorphic lithologic transition from slate to phyllite. Dramatically folded calcareous rocks are visible at the Bennington, Vermont bypass, and students can also view Stark's Knob, where pillow lavas formed as Ordovician basalts erupted under the waters of a shallow sea.
No restrictions on your remixing, redistributing, or making derivative works. Give credit to the author, as required.
Your remixing, redistributing, or making derivatives works comes with some restrictions, including how it is shared.
Your redistributing comes with some restrictions. Do not remix or make derivative works.
Most restrictive license type. Prohibits most uses, sharing, and any changes.
Copyrighted materials, available under Fair Use and the TEACH Act for US-based educators, or other custom arrangements. Go to the resource provider to see their individual restrictions.