the ridge left behind by a glacier that outlines where the glacier has been is called:

Once a pulsar forms, it typically lasts for billions of years. Pulsars are rapidly rotating neutron stars that emit a beam of electromagnetic radiation.

The correct answer is E.

When this beam of radiation is aligned with Earth, it gives off pulses of radiation at regular intervals. Pulsars are typically formed when a massive star collapses in a supernova explosion and its core shrinks to a neutron star. In some cases, a black hole will be formed from the collapsed star instead of a neutron star.

Pulsars can be very long-lived, lasting for billions of years due to the conservation of angular momentum from the star's rapid rotation. Pulsars can spin hundreds of times per second and emit radiation across the electromagnetic spectrum. Pulsars are not believed to be signals from intelligent aliens, but rather just a natural phenomenon caused by the rotation of neutron stars.

The correct answer is E.

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The four main types of marine sediment contain all the ensuing excluding zoogenous sediment. Thus, option e is correct.

Marine sediment is any guarantee of insoluble material, mostly rock and soil particles, hauled from ground sites to the sea by wind, rivers, and the remains of aquatic organisms, effects of torpedo volcanism, chemical residues from seawater, and materials from the outer margin.

The marine sediments are classified based on their source on the floor of oceans. The four significant kinds of deposition are lithogenous, biogenous, hydrogenous, and cosmogenous. The depositions vary in size. Chemical sedimentary stones are made of minerals that rain from saline water.

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The complete question is:

The four main types of marine sediment include all the following except :

a. biogenous sediment

b. hydrogenous sediment.

c.  lithogenous (terrigenous) sediment

d. cosmogenous sediment.

e. zoogenous sediment.

The four main types of marine sediment are lithogenous (terrigenous) sediment, hydrogenous sediment, cosmogenous sediment, and zoogenous sediment. Biogenous sediment is not included in the four main types of marine sediment.

The four main types of marine sediment are lithogenous (terrigenous) sediment, hydrogenous sediment, cosmogenous sediment, and zoogenous sediment. Biogenous sediment is not included in the four main types of marine sediment. Biogenous sediment is a type of sediment that is made up of the remains of plants and animals that live in the ocean. It is formed from the accumulation of shells, skeletons, and other hard parts of marine organisms.

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Answer:

Explanation:The Native American Church (NAC), also known as Peyotism and Peyote Religion, is a Native American religion that teaches a combination of traditional Native American beliefs and Christianity, with sacramental use of the entheogen peyote.

It is difficult to accurately predict the exact number of magnitude-6 earthquakes that may occur in a given region based solely on the occurrence of 100 magnitude-5 earthquakes.

However, generally speaking, the number of magnitude-6 earthquakes may be significantly lower than the number of magnitude-5 earthquakes. This is because earthquakes increase in magnitude exponentially, meaning that there are fewer larger earthquakes than smaller ones. Additionally, the occurrence of earthquakes is influenced by many factors.

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Hi! Based on the observed weather conditions in Irvington, New Jersey, it is most likely that a continental polar (cP) air mass moved into the area on the second day. This type of air mass is characterized by cooler temperatures, lower humidity, and typically originates from the northwest.

Irvington, sometimes known as Irvington-on-Hudson, is a suburban village in the town of Greenburgh in Westchester County, New York, United States. It is located on the eastern bank of the Hudson River, 20 miles (32 km) north of midtown Manhattan in New York City, and is served by a station stop on the Metro-North Hudson Line. To the north of Irvington is the village of Tarrytown, to the south the village of Dobbs Ferry, and to the east unincorporated parts of Greenburgh, including East Irvington. Irvington includes within its boundaries the community of Ardsley-on-Hudson, which has its own ZIP code and Metro-North station, but which should not be confused with the nearby village of Ardsley. The population of Irvington at the 2020 census was 6,652. Because many of Irvington's residents – especially those in the upper income brackets – live in Irvington and work in New York City, the village has a reputation as a "commuter town" or a "bedroom community".

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The differences in scale, duration, and development of hurricanes and tornadoes result in different methods of intensity monitoring and reporting.

Hurricanes and tornadoes are two different types of weather phenomena, and their intensity monitoring and reporting processes differ as well. Hurricane intensity can be monitored and reported as the storm approaches because hurricanes are large-scale weather systems that can be tracked by satellites and aircraft. Also, hurricanes have a longer duration and move relatively slowly, which allows for sufficient time for data collection and analysis. On the other hand, tornadoes are small, localized, and rapidly developing weather events that occur on a smaller scale, making them harder to detect and track. Tornadoes often form quickly, giving meteorologists very little time to report their intensity. Additionally, tornadoes can be obscured by rain and darkness, making it difficult to accurately assess their intensity until after the storm passes. Therefore, tornado intensity is typically determined and reported after the event through damage assessments, eyewitness accounts, and radar data analysis.

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Nearly all of the losses due to Washington historical earthquakes were due to earthquakes within the Juan de Fuca Plate.

C is the correct answer.

Deep earthquakes that rupture faults within the subducting Juan de Fuca plate are the most frequent cause of destructive earthquakes in Washington and Oregon. These earthquakes are referred to as "intraplate" earthquakes. These can be found between 30 and 70 kilometres deep beneath Puget Sound.

A little tectonic plate known as the Juan de Fuca Plate was created by the Juan de Fuca Ridge, which is currently subducting beneath the northernmost region of the North American Plate's western side near the Cascadia subduction zone.

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Answer: Nearly all of the losses due to Washington historical earthquakes were due to crustal earthquakes. The answer is: (a) crustal earthquakes.

Explanation: Crustal earthquakes occur within the Earth's crust, usually along fault lines, and they are relatively shallow, with a depth of less than 20 km. In Washington, these earthquakes happen along faults within the North American Plate. Washington is located in a seismically active region due to the convergence of the Juan de Fuca Plate and the North American Plate, which also leads to subduction-zone earthquakes and earthquakes within the Juan de Fuca Plate.

However, it is the crustal earthquakes that have historically caused the most damage and losses in the state. Some reasons for this include the proximity of the faults to populated areas, the shallow depth of the earthquakes, and the vulnerability of infrastructure.

Additionally, crustal earthquakes in Washington have had a higher frequency of occurrence compared to subduction-zone earthquakes and earthquakes within the Juan de Fuca Plate. Therefore, they have been responsible for most of the earthquake-related losses in the region. The answer is: (a) crustal earthquakes.

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Glacial ice is a viscoelastic material, meaning that it is strong on a short time frame, but behaves weakly over a long time frame.

On short time scales, glacial ice behaves like a strong, elastic solid, capable of resisting deformation and maintaining its shape. However, over long time frames, glacial ice acts more like a weak, viscous fluid, slowly flowing and deforming under its own weight and external pressures. The behavior of glacial ice can be understood through two primary processes: creep and fracture. Creep refers to the slow deformation of ice due to stress over an extended period, causing it to flow and change shape. This is why glaciers move over time, even though they appear solid and stable.

Fracture, on the other hand, occurs when stress exceeds the ice's strength, leading to cracks and breaks. This can happen more suddenly and is typically associated with shorter time scales. In summary, glacial ice is a viscoelastic material that demonstrates strong elastic behavior on short time scales, but weak, viscous behavior over long time frames. This unique combination of properties allows glaciers to move and reshape the landscape over thousands of years, as they slowly flow and respond to changes in the Earth's climate.

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Glacial ice is a type of viscoelastic material, which means that it behaves like a solid on a short time frame (i.e., it can support weight and resist deformation), but behaves like a liquid on a long time frame (i.e., it can flow and deform over time).

Viscoelastic materials are those that exhibit both viscous (liquid-like) and elastic (solid-like) behavior. They are characterized by their ability to store and dissipate energy under deformation. When a stress or force is applied to a viscoelastic material, it responds with both an elastic deformation (immediate and recoverable) and a viscous deformation (gradual and irrecoverable). The relative contributions of these two types of deformation depend on the material's physical properties and the time scale over which the stress is applied. In the case of glacial ice, it is a viscoelastic material because it behaves like a solid (elastic) under short-term stresses, such as the weight of snow or the force of a person's step, but behaves like a liquid (viscous) over long time scales, such as the slow flow of the glacier. This behavior is due to a combination of factors, including the ice's internal structure, its temperature and pressure, and the presence of impurities and air pockets.

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The Floridan Aquifer is a highly productive water-bearing unit that was primarily formed between approximately 50 and 25 million years ago.

The Floridan aquifer is a vast underground system of water-bearing units that extends throughout much of the southeastern United States. Many of the most productive units within this aquifer were deposited during a period of time that spans from approximately 50 to 25 million years ago. This period, known as the Eocene Epoch, was characterized by a warm, tropical climate that provided ideal conditions for the accumulation of sediment and the development of large-scale aquifer systems. Today, these water-bearing units are an important source of drinking water and irrigation for millions of people in the region, making them a critical resource for both human and ecological well-being. During this time, layers of limestone and dolomite were deposited, creating a porous foundation for the aquifer. This has allowed the Floridan Aquifer to store and transmit large quantities of water, making it a vital resource for the region.

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The term that best describes this type of metamorphism is "contact metamorphism.

The term that best describes this type of metamorphism is "contact metamorphism." It occurs when an igneous pluton rises through the country rock, causing the surrounding rocks to undergo metamorphism due to the heat and chemical changes associated with the intrusion. The resulting rim of metamorphic rock surrounding the pluton is an example of this process.The metamorphic rock that forms around the pluton is known as the "contact aureole."

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According to the World Wildlife Fund, only 22.9% of Earth's land surface is still covered with wilderness.

This has been decreasing due to human activities such as urbanization, industrialization, and agriculture. This means that more than three-quarters of the Earth's land surface has been modified by humans. While this loss of wilderness is concerning, conservation efforts are helping to protect remaining wild areas and ensuring that future generations can continue to enjoy them.

Organizations like the WWF are working to expand wilderness areas and to protect the biodiversity found in them. They are also advocating for better land management policies to keep wildlife habitats safe and healthy.

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True. Geographic distribution can help explain the commuting patterns between cities and suburbs, as it refers to the spatial arrangement of people, places, and resources. Understanding this distribution can provide insights into the relationships between cities and suburbs, including commuting patterns.

A suburb, more broadly suburban area, is an area within a metropolitan area that is primarily a residential area, though may also include commercial and mixed-use areas. A suburb can exist either as part of a larger city/urban area or as a separate political entity. The name describes an area which is not as densely populated as an inner city, yet more densely populated than a rural area in the countryside. In many metropolitan areas, suburbs exist as separate residential communities within commuting distance of a city (cf "bedroom suburb".) Suburbs can have their own political or legal jurisdiction, especially in the United States, but this is not always the case, especially in the United Kingdom, where most suburbs are located within the administrative boundaries of cities. In most English-speaking countries, suburban areas are defined in contrast to central or inner city areas, but in Australian English and South African English, suburb has become largely synonymous with what is called a "neighborhood" in the US, and the term encompasses inner city areas.

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Answer:

Explanation:32

Answer:

11

Explanation:

.

The tidal range will be greatest during the spring tide in January, also known as the January spring tide. The neap tide in July, also known as the July neap, will have the smallest tidal range.

The tidal range is the difference in water level between high tide and low tide. It is influenced by several factors, including the position of the Moon and the Sun relative to the Earth.The greatest tidal range occurs during the spring tide, which happens twice a month during the full moon and the new moon. During these times, the gravitational forces of the Moon and the Sun align, leading to higher than average high tides and lower than average low tides

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The early atmosphere of the earth is believed to have been composed primarily of carbon dioxide, nitrogen, and water vapor.

It is thought that the planet's atmosphere began to evolve around 4 billion years ago, as volcanic activity released gases that eventually formed the early atmosphere. The Oparin-Haldane hypothesis is a scientific theory that was first proposed in the 1920s by Russian biochemist Alexander Oparin and later developed by British scientist J.B.S. Haldane. This hypothesis proposes that the early earth's atmosphere, which was primarily composed of gases such as methane, ammonia, and hydrogen, along with lightning strikes and UV radiation from the sun, gave rise to organic molecules necessary for life. These organic molecules eventually led to the formation of the first cells, which became the building blocks of all living organisms.

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One would normally begin with (a) data acquisition in a GIS project. This involves identifying and obtaining the necessary data sources for the project, such as satellite imagery, survey data, or existing maps.

Once the data has been acquired, it can then be explored, analyzed, and displayed within the GIS software. Before acquiring data, it is important to determine the scope and goals of the project in order to identify what data will be needed. Once the necessary data has been identified, it can be obtained from a variety of sources, such as government agencies, commercial providers, or open data portals. Once the data has been acquired, the next step is data preparation, which involves cleaning, formatting, and organizing the data to make it usable for analysis within the GIS software. This can include tasks such as removing duplicates, correcting errors, and creating a common coordinate system. After the data has been prepared, it can be imported into the GIS software and used to create maps, perform spatial analysis, and generate new data through processes such as interpolation or buffering. Overall, data acquisition is a crucial first step in any GIS project, as it lays the foundation for all subsequent analysis and decision-making.

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One would normally begin with Data acquisition in a GIS project. In a GIS (Geographic Information System) project, the typical starting point is data acquisition. Data acquisition involves gathering or obtaining relevant data that will be used in the GIS project.

This may include obtaining geospatial data from various sources, such as satellite imagery, aerial photography, digital maps, or field surveys.

Data acquisition is a critical step in GIS project as the accuracy, quality, and completeness of the data collected will directly impact the results and outcomes of the project.

Once the data is acquired, it can then be processed, analyzed, displayed, and explored using various GIS tools and techniques to derive insights, make decisions, and solve spatial problems.

Data acquisition sets the foundation for the entire GIS project and serves as the starting point for subsequent data processing and analysis tasks.

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The value of archaeological recovery and analysis in areas such as the Middle East contributes all of the following except it doesn't help in disentangle facts and fictions regarding these sites.

The correct option is C.

The value of archaeological recovery and analysis in areas such as the Middle East is immense. Archaeological research can provide invaluable insight into the past, including how these sites were occupied and used, the symbolic impact of major sites over time, and the relationships between different archaeological sites.

Archaeological research is also used to help modern-day peoples understand the importance of the archaeological sites in their area. However, archaeological research does not provide the means to decide which sites are more important or to disentangle facts and fictions regarding these sites. These tasks are best left to historians and other experts in the field.

The correct option is C.

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Hi! The south side of the mountain was not significantly impacted by the May 1980 eruption, as there is minimal evidence of pyroclastic flows, ash deposits, or lava flows in that area. This suggests that the eruption's primary force was directed towards the north and northeast, sparing the southern slopes from severe damage.

The Earth’s mantle within the crust is classified into different sections depending on individual seismology. These include the upper mantle, which ranges between 8 – 35 km to 410 km; the transition zone ranges from 400 to 660 km; the lower mantle lies between 660 – 2891 km.The conditions change dramatically from the crust to the mantle location. The pressures rise drastically and temperatures rise up to 1000 oC. This viscous and molten rock gets collected into large chambers within the Earth’s crust.Since magma is lighter than surrounding rock, it floats up towards the surface and seeks out cracks and weakness in the mantle. It finally explodes from the peak point of a volcano after reaching the surface. When it is under the surface, the melted rock is known as magma and erupts as ash when comes up.

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Much of the portable art from the ice age is of animals, but the most famous pieces are the so-called Venus figurines, such as the example from Willendorf, Austria.

The name is Venus Figurine refers to the more than 200 tiny statuettes of voluptuous female figures discovered at Upper Palaeolithic sites throughout Europe and certain areas of Asia.

"When paleoanthropologists refer to figurines as Venuses, [they] usually do so with air quotes" (von Petzinger, 95), because stories about the goddess Venus predate Venus sculptures by thousands of years. The term comes from speculations that link these figures to fertility and sexuality, two characteristics connected with the Roman goddess.

While the bulk of Venus figurines exhibit these voluptuous qualities, individual specimens show considerable variation in terms of materials and craftsmanship. In terms of geography, they are also fairly different.

They have been discovered in locations throughout Europe and as far away as Siberia. The majority have been discovered in prehistoric village sites, both inside caves and in open areas. While exceedingly unusual, several figurines have been discovered in graveyards.

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Ocean gyres are huge, circular-moving systems of currents that dominate the surface of the ocean within an ocean basin.

They are formed by the combination of the Earth’s rotation, prevailing winds, and the Coriolis effect. Gyres are formed in the five major ocean basins: the North and South Pacific, North and South Atlantic, and Indian Ocean. Gyres are made up of several interacting currents, including the Western Boundary Currents, which are fast and very deep, and the Central Gyres, which are slower and shallower.

These gyres act as transportation systems, carrying warm and cold water, nutrients and other materials around the globe. They are also important for the distribution of marine life, and are the main source of nutrients for the world’s fisheries. Gyres also play an important role in climate, influencing the distribution of heat, and contributing to the formation of large-scale weather patterns.

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Answer:

1. economy

2. literacy rate

Explanation:

The term that describes a location where transfer is possible from one mode of transportation to another is "intermodal transportation hub" or simply "intermodal ".

An intermodal hub is a facility or location that allows for the transfer of cargo or passengers between different modes of transportation, such as from ship to truck, from train to airplane, or from truck to train. Intermodal hubs can be located at seaports, airports, or along major highways or rail lines.In the example given, the steel mill near the port of Baltimore is an example of an intermodal hub, as it receives raw materials by both ship and train, and likely uses trucks or other means of transportation to move finished products to market. By using multiple modes of transportation, the steel mill can take advantage of the strengths of each mode and optimize its supply chain for efficiency and cost-effectiveness.

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Urban areas are more likely to flood after heavy precipitation than undeveloped areas due to a phenomenon called urbanization. Urbanization is the process of converting natural landscapes into built-up environments such as cities and towns.

Undeveloped areas, on the other hand, have more permeable surfaces like soil and vegetation that can absorb and store rainwater. This means that when heavy precipitation occurs, more of the water can be absorbed by the ground, reducing the amount of runoff and the likelihood of flooding. In addition to the lack of permeable surfaces, urban areas often have inadequate drainage systems that cannot handle the volume of water during heavy precipitation. As a result, water can accumulate on streets and parking lots, causing flooding. Urban areas also tend to have more buildings and infrastructure that can be damaged by flooding, which can be costly and dangerous. Overall, the combination of impervious surfaces, inadequate drainage, and a high concentration of infrastructure in urban areas make them more vulnerable to flooding during heavy precipitation events compared to undeveloped areas. Urban areas are more likely to flood after heavy precipitation than undeveloped areas because they have a higher percentage of impervious surfaces, such as concrete and asphalt. These surfaces prevent rainwater from being absorbed into the ground, leading to increased runoff and a greater risk of flooding. Additionally, urban areas often have more extensive drainage systems that can become overwhelmed during heavy precipitation events, further contributing to the likelihood of flooding.

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The Pleistocene epoch, which lasted from about 2.6 million years ago to 11,700 years ago, was characterized by dramatic fluctuations in climate and environmental conditions.

One of the defining features of this period was the alternating cycles of glaciation and warming, known as glacial-interglacial cycles. During glacial periods, large portions of the earth's surface were covered by massive ice sheets, causing a drop in sea levels and a drying of many regions. Conversely, during interglacial periods, the earth's climate was relatively warmer and more humid, leading to the expansion of forests and grasslands. These climate fluctuations had a profound impact on human evolution, shaping the morphology, behavior, and distribution of early humans. During the glacial periods, early humans were forced to adapt to harsh and challenging conditions, such as limited food resources and extreme temperatures. In contrast, during the warmer interglacial periods, early humans were able to expand their ranges and take advantage of new resources, leading to the development of new cultural and technological innovations. Overall, the Pleistocene was characterized by a dynamic and ever-changing environment, with dramatic shifts in temperature, humidity, and glaciation playing a key role in the evolution of our species.

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The correct answer is a. Like rivers, landforms along shorelines are shaped by the balance between sediment arriving in a portion of the shore and then being removed from it.

This process is known as erosion and is influenced by factors such as wave action, currents, and the type of sediment present. Over time, erosion can create a variety of landforms along shorelines, including beaches, cliffs, and tidal flats. Understanding this process is important for coastal management and the preservation of these fragile ecosystems. Sediment can be transported along the shore, from one location to another, or it can be moved offshore and deposited in deeper water. Sediment can also be eroded from the shore and carried away by these same forces. The amount of sediment transported and the direction of transport can vary depending on the strength and direction of the forces acting on it, as well as the characteristics of the sediment itself, such as its size, shape, and composition. Sediment transport plays an important role in shaping the morphology of coastal environments and can have significant impacts on local ecosystems and human populations.

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Like rivers, landforms along shorelines are shaped by the balance between sediment arriving in a portion of the shore and then being removed from it. This balance is influenced by various factors such as the weight of the sediments in the water and the weight of the sediments arriving.

Shorelines are dynamic environments where the movement of water and sediment play a crucial role in shaping the landforms. Rivers and other water bodies carry sediments and deposit them along the shorelines. These sediments can be transported by waves, currents, and tides.

The weight of these sediments in the water can affect the balance of sediment deposition and erosion along the shore.

The weight of the sediments arriving on the shorelines can also affect the balance between deposition and erosion. Heavier sediments tend to stay in place, while lighter sediments can be carried away by the movement of water. This can result in the formation of different landforms such as beaches, dunes, and cliffs.

Overall, the balance between sediment arriving and being removed is essential in shaping the landforms along shorelines. Understanding the complex interactions between water, sediment, and landforms is crucial in managing and preserving these fragile environments.

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The provision of the Resource Conservation and Recovery Act (RCRA) that is aimed at eliminating midnight dumping and ensuring proper disposal of hazardous wastes is the "cradle-to-grave" system.

This system requires hazardous waste generators to properly label, package, and store their waste, as well as to use licensed and authorized transporters and treatment facilities for the disposal of the waste. The system also mandates that waste handlers keep detailed records of the waste from its creation to its final disposal, thereby ensuring accountability and proper handling throughout the entire waste management process. This provision is critical in preventing the illegal and hazardous practice of midnight dumping, which can harm human health and the environment.

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The water that is found underground is generally referred to as groundwater. This water can partially fill pores in the unsaturated zone, which is called the capillary fringe, or it can completely fill pores in the saturated zone, which is also referred to as groundwater.

Additionally, some groundwater may adhere temporarily to sediment particles and eventually evaporate back into the atmosphere or be absorbed by plant roots. However, if the water is seeping up from the water table because of the electrostatic attraction of water molecules to mineral surfaces, it is called phreatic-zone water.
Groundwater is the water that completely fills pores in the saturated zone, while water that partially fills pores in the unsaturated zone is called capillary fringe. Phreatic-zone water seeps up from the water table due to electrostatic attraction of water molecules to mineral surfaces. Lastly, water that adheres temporarily to sediment particles and eventually evaporates back into the atmosphere or is absorbed by plant roots is known as soil moisture.

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Answer:

Why are there faults close to plate margins?

Earthquakes occur along faults, which are fractures between blocks of rock that allow the blocks to move relative to one another. Faults are caused by the bumping and sliding that plates do and are more common near the edges of the plates.