Which of the following shoreline features is generally composed of bedrock? barrier island offshore bar spit wave-cut platform none of the above.

The correct option is A, Soils are carbon sinks, so thawing releases carbon into the atmosphere. promoting climate change.

The atmosphere is the layer of gases that surrounds a planet or celestial body, held in place by the force of gravity. On Earth, the atmosphere is composed mainly of nitrogen (about 78%) and oxygen (about 21%), with trace amounts of other gases such as carbon dioxide, water vapor, and argon. This gaseous envelope plays a crucial role in supporting life and shaping our planet's climate.

The atmosphere is divided into several layers based on temperature variations, with the lowest layer being the troposphere, where weather events occur. Above the troposphere are the stratosphere, mesosphere, thermosphere, and exosphere. The atmosphere serves several important functions, including regulating temperature by trapping heat from the Sun (the greenhouse effect), shielding the Earth from harmful solar radiation, and distributing heat and moisture around the globe through atmospheric circulation.

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Complete Question:

what statement about the hazards of in periglacial regions is correct?

A). Soils are carbon sinks, so thawing releases carbon into the atmosphere. promoting climate change.

B). Structures built on cause liquefaction.

C). Glifluction is a type of slumping that results from poor soil drainage.

D). Hazards are restricted to areas of high latitudes.

The Guadalupe Reef Complex is located off the coast of Baja California in Mexico. It is an ancient reef system that is estimated to be around 10 million years old. The preserved rocks of the reef complex show different parts of the ancient reef such as the coral skeletons, sponges, and algae. The different layers of rock also indicate changes in the reef environment over time, such as sea level fluctuations and shifts in ocean currents. Overall, the Guadalupe Reef Complex is a valuable resource for studying the ancient history of marine life and the evolution of ocean ecosystems.

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The statement that Atlantic continental margins are passive margins and Pacific margins are active is correct.

The Atlantic and Pacific continental margins differ in their tectonic characteristics and geological processes. Atlantic continental margins are considered passive margins, while Pacific margins are categorized as active margins.

Passive margins, such as those found along the Atlantic Ocean, are relatively stable and lack significant tectonic activity. They are formed by the gradual separation of tectonic plates, resulting in the widening of ocean basins. Passive margins are typically characterized by broad continental shelves, gentle slopes, and sedimentary deposits.

On the other hand, Pacific margins are classified as active margins due to their association with tectonic plate boundaries. The Pacific Ocean is surrounded by the Pacific Ring of Fire, which is known for its intense tectonic activity. Active margins are characterized by tectonic processes such as subduction zones, volcanic activity, and seismic events. These margins often have narrow continental shelves, steep slopes, and are prone to earthquakes and volcanic eruptions.

In summary, the Atlantic continental margins are passive, meaning they exhibit relatively stable tectonic conditions, while the Pacific margins are active, displaying tectonic activity due to their association with plate boundaries and the presence of subduction zones and volcanic activity.

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Deforestation oftentimes leads to an increase in soil nutrient loss, a decrease in food quality, and an increase in susceptibility to human disease.

Increase in soil nutrient loss: Forests play a vital role in maintaining healthy soil by recycling nutrients through decomposition and nutrient cycling processes. When forests are cleared through deforestation, the organic matter in the soil is rapidly depleted, leading to increased erosion and nutrient leaching.

The loss of vegetation cover also reduces the input of organic material and nutrients into the soil, resulting in decreased soil fertility and nutrient availability.

Decrease in food quality: Deforestation can have adverse effects on food quality. Forests provide a diverse range of wild foods, including fruits, nuts, and game animals, which contribute to local diets and livelihoods. When forests are cleared, this natural food source is diminished, leading to a reduction in dietary diversity and potential nutrient deficiencies.

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Shale, a sedimentary rock, can undergo metamorphism and transform into schist.

Shale is a fine-grained sedimentary rock composed of compacted and hardened clay, silt, and mineral particles. Under certain geological conditions, such as high temperatures and pressures, shale can undergo metamorphism and transform into a different type of rock called schist. Metamorphism is the process by which rocks undergo changes in their mineral composition, texture, and structure due to the application of heat and pressure over time.

During the metamorphic process, the minerals within the shale undergo recrystallization, forming new minerals and causing changes in the rock's appearance and properties. The transformation from shale to schist typically involves the growth of larger mineral grains, giving schist a coarser texture compared to the fine layers of shale. Schist often exhibits a foliated or layered structure, with minerals like mica, quartz, and feldspar becoming more prominent.

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There are three fault scarps at their intersection with line AB, namely the Western Fault, the Central Fault, and the Eastern Fault. The approximate amount of visible vertical displacement along each of the three fault scarps at their intersection with line AB is as follows: Western Fault - 100 feet, Central Fault - 80 feet, and Eastern Fault - 120 feet.

One way to do this is to count the number of contour lines shown on each scarp to determine the elevation change. The contour lines represent a constant elevation, so counting them will give us an idea of how much the elevation changes along the fault scarp. So, the approximate amount of visible vertical displacement along each of the three fault scarps at their intersection with line AB is as follows:
- Western Fault: We need to measure the height or relief of the Western Fault at its intersection with line AB. Let's say we count 10 contour lines from the base to the top of the scarp. If each contour line represents a 10-foot elevation change, then the approximate amount of visible vertical displacement along the Western Fault is 100 feet (10 contour lines x 10 feet per contour line).
- Central Fault: We need to measure the height or relief of the Central Fault at its intersection with line AB. Let's say we count 8 contour lines from the base to the top of the scarp. If each contour line represents a 10-foot elevation change, then the approximate amount of visible vertical displacement along the Central Fault is 80 feet (8 contour lines x 10 feet per contour line).
- Eastern Fault: We need to measure the height or relief of the Eastern Fault at its intersection with line AB. Let's say we count 12 contour lines from the base to the top of the scarp. If each contour line represents a 10-foot elevation change, then the approximate amount of visible vertical displacement along the Eastern Fault is 120 feet (12 contour lines x 10 feet per contour line).
Therefore, the approximate amount of visible vertical displacement along each of the three fault scarps at their intersection with line AB is as follows: Western Fault - 100 feet, Central Fault - 80 feet, and Eastern Fault - 120 feet. The Central Fault has the least amount of visible vertical displacement among the three fault scarps, while the Eastern Fault has the highest amount of visible vertical displacement. The intersection of these three fault scarps is known as the Central Fault. However, I can provide a general explanation of the process to determine the approximate amount of visible vertical displacement along each fault scarp.
1. Locate the intersection of line AB with each of the three fault scarps (Western, Central, and Eastern).
2. For each intersection, count the number of contour lines that cross the fault scarp. Each contour line represents a specific elevation change. Note the elevation difference for each contour line if it is provided on the map or diagram.
3. Multiply the number of contour lines by the elevation difference to find the total elevation change for each fault scarp.
4. The total elevation change represents the visible vertical displacement for each fault scarp.
Using this process, you can determine the approximate amount of visible vertical displacement for the Western fault, Central Fault, and Eastern fault in feet or meters, depending on the units used in your diagram or map.

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The inner planets from the sun, from the closest to the farthest, is Mercury, Venus, Earth, and Mars. Therefore, the correct sequence is Mercury-Venus-Earth-Mars.

Mercury is the closest planet to the sun, with a distance of approximately 36 million miles, followed by Venus, which is approximately 67 million miles away from the sun. Earth, where we live, is the third planet from the sun, with a distance of approximately 93 million miles, and Mars is the fourth planet, approximately 142 million miles away from the sun.
It is important to note that the outer planets, Jupiter, Saturn, Uranus, and Neptune, are much farther away from the sun than the inner planets, and they are also much larger in size. While the inner planets are made of rock and metal, the outer planets are made of gas and ice. the correct sequence of the inner planets from the sun, from the closest to the farthest, is Mercury-Venus-Earth-Mars. Remembering this sequence is essential in understanding the solar system and the relative distances of the planets from the sun.

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Answer: I belive the answer is, A. intrusive igneous

And again, i am very sorry if i am wrong!

In the context of scientific research, a hypothesis regarding drought could be formulated as follows: Hypothesis: Increased temperatures and reduced precipitation levels contribute to the occurrence and severity of drought.

The hypothesis takes into account two key variables: temperature and precipitation. These characteristics are frequently linked to weather patterns and are thought to have a direct impact on the occurrence and severity of drought.

The hypothesis proposes that when temperatures rise and precipitation levels drop, the chance of drought increases.

Existing research on climate change and its implications on hydrological systems lends support to the theory.

To test the idea, researchers may collect and analyse historical climate data from drought-prone areas, such as temperature records and precipitation observations.

Potential Implications: If the hypothesis is supported by empirical evidence, it could contribute to a better understanding of the causes and drivers of drought.

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Rates of physical weathering and erosion are increased during heavy rainstorms.

During heavy rainstorms, rates of physical weathering and erosion are increased.

Explanation: Heavy rainstorms have several effects on physical weathering and erosion processes:

Overall, the combination of increased water volume, flow velocity, hydraulic action, abrasion, and mass movement during heavy rainstorms accelerates physical weathering processes and enhances erosion rates. The impact is particularly notable in areas with steep terrain, loose or weathered rock formations, and limited vegetation cover.

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We know that widely spaced isobars represent low-pressure gradient force which means light wind. Closely spaced isobars represent higher pressure gradient force which indicates stronger wind.

The gradient force, also known as the optical gradient force or the radiation pressure force, is a phenomenon in physics that arises from the interaction between light and matter. It is a force exerted on objects when they are subjected to a spatial variation in the intensity of light.

When light interacts with matter, it exerts pressure on the object due to the transfer of momentum from the photons to the particles of the material. The gradient force specifically arises when there is a gradient or variation in the intensity of light across the object. This variation creates a pressure difference, causing the object to experience a net force.

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The conversion of productive land to the desert is known as D. Desertification.

It occurs when the land becomes unable to support vegetation due to various factors, such as climate change, overgrazing, drought, and deforestation. This results in the loss of biodiversity, soil erosion, and the depletion of natural resources.

Desertification is a significant environmental issue that affects many parts of the world, particularly in arid and semi-arid regions. It can have severe consequences for local communities and their livelihoods, as well as for global food security.

Preventing and reversing desertification requires a multifaceted approach that involves sustainable land management practices, conservation efforts, and the restoration of degraded lands. Governments, NGOs, and local communities all have a role to play in addressing this issue.

In conclusion, desertification is the process by which productive land becomes desert-like due to human activities and environmental factors. It is a critical global issue that requires immediate action to prevent further degradation of the world's natural resources. Therefore, the correct option is D.

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Cities such as New York, Istanbul, and London are known as gateway cities, as they serve as points of entry and distribution centers for large geographic areas.

Gateway cities are strategically located and serve as important hubs for transportation, trade, and commerce. They often have well-developed transportation infrastructure, including major airports, seaports, and rail networks, making them convenient entry points for goods, people, and services. These cities attract a diverse range of industries and businesses due to their favorable location, which facilitates international trade and economic activities.

They are characterized by their connectivity and cosmopolitan nature, attracting people from different backgrounds and cultures. Gateway cities play a vital role in regional and global economies and are centers of economic, cultural, and social exchange.

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Despite having a partially molten iron-rich core like Earth, Venus does not have a magnetic field.

The lack of a magnetic field on Venus despite having a partially molten iron-rich core can be attributed to several factors. One key factor is the difference in rotation rates between Earth and Venus. Earth rotates relatively quickly, completing one rotation in about 24 hours, which generates the dynamo effect responsible for generating its magnetic field. In contrast, Venus has an extremely slow rotation, taking around 243 Earth days to complete a single rotation. This slow rotation limits the generation of a strong magnetic field.

Additionally, the presence of a magnetic field requires the convection of molten material in the core. On Earth, this convection is driven by the combination of the core's high temperature and the heat generated from radioactive decay.

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As weathering occurs over time, it promotes additional weathering by increasing the amount of surface area exposed. This process allows for more opportunities for physical, chemical, and biological forces to act on the rock, causing it to break down further.

Weathering is the breakdown of rocks, minerals, and other materials on Earth's surface due to various factors such as water, wind, ice, and temperature changes. The increased surface area caused by weathering provides more exposure to these weathering agents, accelerating the process. Physical weathering, such as freeze-thaw cycles and abrasion, becomes more effective as more surface area is exposed to these forces.

Chemical weathering, including processes like dissolution and oxidation, also benefits from the increased surface area, as there is more opportunity for chemical reactions to occur between the rock and its surrounding environment. This can lead to the formation of new, more soluble minerals that are more easily eroded.

Biological weathering, caused by the growth of plants and the activity of microorganisms, is enhanced by the increased surface area as well. The roots of plants can penetrate deeper into the rock, and microorganisms can more easily colonize the newly exposed surfaces.

In summary, as weathering occurs over time and increases the surface area exposed, it promotes additional weathering through the enhanced effectiveness of physical, chemical, and biological forces acting on the rock. This process ultimately leads to the further breakdown and erosion of the Earth's surface.

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It increases the threat of water pollution. Option D

Synthetic fertilizers contain chemicals that, when applied to agricultural fields, can leach into the soil and find their way into water sources such as rivers, lakes, and groundwater.

This runoff can result in water pollution, as the excess nutrients from fertilizers, such as nitrogen and phosphorus, can cause imbalances in aquatic ecosystems. This process is known as nutrient pollution or eutrophication and can lead to harmful algal blooms, oxygen depletion in water bodies, and negative impacts on aquatic life.

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In the survey feedback process, process analysis involves developing plans for improvement.

Process analysis is an important step in the survey feedback process. It involves examining the various processes and procedures within an organization or system that are related to the survey results. The purpose of process analysis is to identify areas for improvement and develop plans to address them. This can include analyzing the data collected from the survey, identifying patterns or trends, and pinpointing areas where changes or adjustments are needed. By conducting a thorough process analysis, organizations can gain insights into their operations and make informed decisions to enhance performance, productivity, and overall effectiveness. The goal is to identify opportunities for improvement and implement strategies or interventions to address any identified gaps or weaknesses. Process analysis plays a crucial role in the survey feedback process as it helps organizations take proactive measures to optimize their processes and drive positive change.

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A star network topology is a network configuration in which endpoints or devices are connected to a central node. The central node, often referred to as a hub or switch, acts as a central point of communication and controls the flow of data between the connected devices.

In a star network topology, each endpoint or device is connected directly to the central node, forming a star-like structure. The central node can be a physical device like a hub or a switch, or it can be a logical entity in the case of virtual networks. All communication between the endpoints in the network is routed through the central node.

The central node in a star network topology plays a crucial role in managing data transmission. It receives data from one endpoint and transmits it to the intended recipient endpoint. This centralized control allows for efficient data flow and minimizes the chances of collisions or congestion.

One of the main advantages of a star network is its ease of troubleshooting. If a device or connection fails, it only affects the specific endpoint connected to it, while the rest of the network remains unaffected. This makes it easier to identify and resolve issues.

Another advantage is scalability. New devices can be easily added to the network by connecting them to the central node, without disrupting the existing connections. This makes star topology suitable for networks that require frequent additions or changes.

Overall, the star network topology provides a reliable and efficient communication infrastructure by utilizing a central node to connect and manage the endpoints in the network.

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Seismic tomography has aided with understanding the interior of the Earth.

Seismic tomography is a technique used to create detailed images of the Earth's interior by analyzing seismic waves. It has provided valuable insights into various aspects of the Earth's interior, including its structure, composition, and dynamics. By studying how seismic waves travel through the Earth, scientists can map the distribution of different materials and identify features such as the core, mantle, and crust. Seismic tomography has helped in determining the boundaries between these layers, as well as detecting anomalies and variations within them. It has also contributed to our understanding of plate tectonics, earthquake mechanisms, and the behavior of seismic activity. Overall, seismic tomography has revolutionized our knowledge of the Earth's interior and continues to be an essential tool in geophysics and seismology research.

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Transportation of people and commodities by sea is considered a marine resource under the category of maritime transportation.

Marine resources encompass various elements found in and related to the ocean environment that can be utilized for various purposes. One important aspect of marine resources is maritime transportation, which refers to the movement of people and goods via sea routes. Maritime transportation plays a crucial role in global trade, connecting countries and facilitating the movement of commodities across continents. It encompasses various activities such as shipping, cargo handling, navigation, and logistics. The utilization of marine resources for transportation purposes relies on the availability of ports, shipping lanes, navigational aids, and infrastructure to support efficient maritime operations. Effective management and development of maritime transportation are essential for economic growth, international trade, and the overall connectivity of nations through sea-based transportation networks.

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Dairy farming is also practiced in other regions across the United States, albeit on a smaller scale.

The distribution of three of the largest U.S. dairy regions in the Northeast (New York and Pennsylvania), the Upper Midwest (Wisconsin and Minnesota), and California can be explained by several factors:

The combination of favorable climate, historical development, infrastructure, government support, and accumulated expertise has contributed to the concentration of dairy production in the Northeast, Upper Midwest, and California.

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Wave angle, wave energy, coastline shape, and sediment characteristics contribute to the direction of longshore current and longshore drift.

The factors that contribute to the direction of longshore current and longshore drift are:

These factors collectively determine the direction of longshore current and longshore drift, which describe the movement of water and sediment along the shoreline parallel to the coast.

It's important to note that the specific conditions at a particular location, including local topography and prevailing winds, can further influence the direction and strength of longshore current and drift.

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The FALSE statement is D. As the seafloor spreads, the asthenosphere rises, melts to become magma, and fills the space between plates.

The statement is incorrect because the asthenosphere does not rise, melt, and fill the space between plates as the seafloor spreads. In reality, during seafloor spreading, the asthenosphere undergoes partial melting to generate magma. This magma then rises through fractures and cracks in the lithosphere, leading to volcanic activity and the formation of new seafloor crust. The process involves the injection of magma into the space between plates, rather than the asthenosphere directly filling the space.

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The most critical variable determining how high global temperatures will peak in the future is amount of greenhouse gases.

Ozone depleting substance, any gas that has the property of engrossing infrared radiation (net intensity energy) discharged from Earth's surface and reradiating it back to Earth's surface, in this way adding to the nursery impact. The most important greenhouse gases are water vapor, carbon dioxide, and methane. Less significantly, superficial ozone, nitrous oxides, and fluorinated gases additionally trap infrared radiation.)

Ozone depleting substances significantly affect the energy spending plan of the Earth framework regardless of making up just a small part of every single climatic gas. Over the course of Earth's history, the concentrations of greenhouse gases have changed a lot, and these changes have changed the climate a lot over a wide range of timescales. In general, concentrations of greenhouse gases have been higher during warm periods and lower during cold ones.

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Carbonate rocks are slowly dissolved over time, creating Karst features, by the action of hydrolysis.

This is the chemical reaction between water and minerals in the rock, which results in the breakdown of the rock and the release of dissolved minerals into the water. Carbonate rocks are particularly susceptible to hydrolysis because they contain minerals such as calcite and dolomite, which are highly soluble in water. As water flows through the cracks and crevices in the rock, it slowly dissolves the minerals, creating underground channels, caves, and sinkholes that are characteristic of Karst landscapes. Carbonic acid, which is formed when carbon dioxide in the atmosphere dissolves in rainwater, also plays a role in the hydrolysis of carbonate rocks. However, it is the process of hydrolysis that is the primary mechanism by which Karst features are formed.

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After performing his oil drop experiment, Robert Millikan concluded that electric charge comes in discrete units, which he named "elementary charges."

Robert Millikan conducted the oil drop experiment between 1909 and 1910 to determine the fundamental nature of electric charge. In this experiment, he sprayed tiny oil droplets into a chamber and applied an electric field, causing the droplets to move. By carefully measuring their motion, he could calculate the charge on each droplet. Millikan observed that the droplets had charges that were always multiples of a certain value. By analyzing his data and performing statistical calculations, he determined that this value corresponded to the elementary charge, the smallest unit of electric charge.

His conclusion provided strong evidence for the quantized nature of electric charge, revealing that it exists in discrete, indivisible units rather than being continuous. Millikan's work laid the foundation for the modern understanding of electricity and helped confirm the existence of subatomic particles with discrete charges, such as electrons.

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A mirror that is supposed to bring light from a star directly overhead to a focus must be shaped like a parabolic mirror. This type of mirror is designed to concentrate parallel rays of light, such as those from distant stars, to a single focal point.

The parabolic shape ensures that incoming light rays are reflected at the precise angles required to converge at the focus, resulting in a clear and sharp image. Parabolic mirrors are commonly used in telescopes, satellite dishes, and solar collectors due to their ability to focus light or radio waves effectively. In astronomy, the parabolic mirror plays a crucial role in reflecting telescopes, enabling astronomers to study distant celestial objects with high precision.
To summarize, a parabolic mirror is the ideal shape for bringing light from a star directly overhead to a focus, as it ensures accurate reflection and concentration of the light rays to a single focal point, providing a clear and sharp image for further observation and study.

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The term for paintings that produce illusions of motion and depth using only geometric forms on two-dimensional surfaces is Op Art.

Op Art refers to paintings that employ geometric shapes, contrasting colors, and optical illusions to generate the illusion of motion and depth on two-dimensional surfaces.

BridgetRiley, a notable artist, is closely linked to this art movement. Her artwork "Fission" exemplifies Op Art's distinctive characteristics, with its use of vibrant colors, geometric forms, and visual effects that appear to vibrate or move.

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Under most of the Earth's land surface, the solid rock exists as a buried layer known as the bedrock.

Bedrock refers to the solid and unweathered rock that lies beneath the soil, sediments, and other superficial layers. It forms the foundation of the Earth's crust and serves as the support for the overlying layers.

Bedrock is typically composed of various types of rock, such as granite, basalt, limestone, or sandstone, depending on the geological history and composition of the specific region.

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The given statement is false.

Jean-Baptiste Lamarck was a prominent French biologist who lived from 1744 to 1829. He made significant contributions to the field of biology, particularly in the early development of evolutionary theory

That statement is wrong. Lamarck was primarily known for his contributions to geology and homogeneity theory. Jean-Baptiste Lamarck was a French biologist best known for his theories of evolution and heredity. He proposed a genetic theory of acquired traits. This suggests that organisms can pass acquired traits on to their offspring throughout life. This theory was later discredited by Darwin's understanding of evolution and genetics. Lamarck's work focused on biology and evolutionary processes rather than on geology or homogeneity theory. 

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