Urbanization, through paving and other human activities, typically leads to an increase in runoff and a decrease in infiltration in small, previously forested drainage basins.
This is because impervious surfaces like pavement prevent water from soaking into the ground, resulting in more water flowing over the surface and increasing runoff. This increase in runoff can lead to higher peak flows and more frequent flooding. In addition, the loss of vegetation and disruption of natural hydrological processes can lead to soil erosion, sedimentation, and water pollution.Urbanization, especially in small, previously forested drainage basins, can have significant impacts on the water cycle. Paving surfaces and buildings prevent water from infiltrating into the ground, reducing infiltration rates. Instead, water runs off the surface more quickly, resulting in increased runoff. This can lead to more flooding, erosion, and decreased water quality.
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which terrestrial biome has temperatures between 24-29 c and 50-130 cm of rain per year with a distinct dry season? question 12 options: tropical rainforest tropical grasslands taiga temperate seasonal forests
Answer:
I don't think is one of your options, I think is Savannas
Why?
Savannas are hot, tropical areas with temperatures averaging from 24oC –29oC (75oF –84oF) and an annual rainfall of 51–127 cm (20–50 in). Savannas have an extensive dry season and consequent fires.
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which type of hurricane damage can affect an area days after the storm loses its hurricane-strength winds?
Even after a hurricane loses its hurricane-strength winds, the area can still be affected by flooding caused by heavy rainfall and storm surge.
While hurricane-strength winds can cause immediate and visible damage, such as uprooted trees and destroyed buildings, the aftermath of a hurricane can bring slower, longer-lasting damage in the form of flooding.
Heavy rainfall and storm surge can cause rivers and lakes to overflow, and low-lying areas to become inundated with water. This can lead to long-term damage to infrastructure and homes, as well as potential health hazards from standing water.
Additionally, the displacement of people from their homes and businesses can lead to economic hardships and long-term social impacts. Therefore, it is important to recognize the potential for prolonged flooding and plan accordingly for post-hurricane recovery efforts.
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_______ is a type of sedimentary structure that indicates deposition of sediments from a current and can often be used to determine paleocurrent directions.
Answer:
directional sedimentary structures
Explanation:
which of the following are ways that a farmer can reduce negative affects on the water quality of nearby streams and lakes? question 1 options: planting crops that produce more oxygen planting crops that require less water planting crops that need less fertilizer planting crops that need less solar energy
Planting crops that need less fertilizer is one way that a farmer can reduce negative effects on the water quality of nearby streams and lakes.
Over-fertilization can cause nutrient pollution in water bodies, leading to harmful algal blooms and low oxygen levels that can harm aquatic life. By using fertilizers judiciously and planting crops that require less fertilizer, farmers can help reduce nutrient pollution and improve water quality. Planting crops that produce more oxygen, such as aquatic plants, can also help improve water quality.Planting crops that need less fertilizer can help reduce negative impacts on water quality. Excess fertilizer can run off from fields and enter nearby waterways, causing algal blooms and reducing oxygen levels. By planting crops that require less fertilizer, farmers can reduce the amount of excess nutrients that enter waterways.
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which of the following is a systematic subfield of geography? regional geography cartography geographic information science (gis) cultural geography astrology
The systematic subfield of geography is geographic information science (gis), which is concerned with the collection, analysis, and interpretation of spatial data.
Regional geography is also a subfield of geography, but it is more focused on the study of specific regions and their characteristics. Cartography is the art and science of mapmaking, while cultural geography is the study of the relationship between human culture and the natural environment. Astrology is not a subfield of geography.
Computer-based technologies called GIS, or geographic information systems, are used to store, view, analyze, and interpret geographic data. The geographic location of features is determined by geographic data, often known as spatial or geospatial data. A geographic information system (GIS) is a computer program that collects, stores, verifies, and presents information about locations on the surface of the Earth. Streets, buildings, and plants can all be displayed on a single map using GIS.
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What is a transgranular fracture?
A transgranular fracture is a type of fracture that occurs within the grains or crystals of a material, rather than along their boundaries. This type of fracture is also known as a transcrystalline fracture.
The crack propagates through the interior of the grains in a transgranular fracture, following a path specified by the crystal structure and grain orientation. A rough, jagged surface with a complicated pattern of intersecting cracks is typical of this type of fracture.
Metals, ceramics, and polymers are all capable of exhibiting transgranular fractures. The particular method by which transgranular fractures develop is determined by the material and the loading circumstances.
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the nazca plate (an oceanic plate) is heading east while the south american plate (largely continental) is heading west. describe what type of boundary and what landforms you would expect to find at the boundary between these plates. be thorough.
The boundary between the Nazca Plate (oceanic) and the South American Plate (continental) is a convergent boundary, specifically a subduction zone. The landforms you would expect to find at this boundary are volcanic arcs, deep ocean trenches, and mountain ranges.
1. Convergent Boundary: This occurs when two tectonic plates move towards each other. In this case, the Nazca Plate is heading east while the South American Plate is heading west.
2. Subduction Zone: Since the Nazca Plate is oceanic and the South American Plate is continental, the denser oceanic plate (Nazca Plate) is forced to sink beneath the less dense continental plate (South American Plate) creating a subduction zone.
3. Volcanic Arcs: As the Nazca Plate is subducted, it melts due to the high pressure and temperature, generating magma. This magma rises to the surface and creates volcanic arcs along the continental margin of the South American Plate.
4. Deep Ocean Trenches: The subduction of the oceanic plate beneath the continental plate creates deep ocean trenches. These trenches are linear features in the ocean floor that represent the deepest parts of the ocean.
5. Mountain Ranges: The compressive forces at the convergent boundary can also cause the crust to thicken and uplift, resulting in the formation of mountain ranges, such as the Andes in South America.
The boundary between the Nazca Plate and the South American Plate is a convergent boundary characterized by a subduction zone. At this boundary, you would expect to find landforms such as volcanic arcs, deep ocean trenches, and mountain ranges, like the Andes Mountains.
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What set of transformations could be applied to rectangle ABCD to create A″B″C″D″? Rectangle formed by ordered pairs A at negative 4, 2, B at negative 4, 1, C at negative 1, 1, D at negative 1, 2. Second rectangle formed by ordered pairs A double prime at negative 4, negative 2, B double prime at negative 4, negative 1, C double prime at negative 1, negative 1, D double prime at negative 1, negative 2. Reflected over the x-axis and rotated 180° Reflected over the y-axis and rotated 180° Reflected over the x-axis and rotated 90° counterclockwise
Reflected over the x-axis and reflected over the y-axis: a set of transformations could be applied to rectangle ABCD to create A″B″C″D".
The creation of an image of a figure by two or more transformations is known as a composite transformation.
The second option is the collection of modifications that might be used on rectangle ABCD to produce rectangle A'B'C'D';
180° rotated and reflected across the y-axis
The ordered pair of the pre-image vertices has the form (-x, y), where x and y are positive integers, with and negative value for x and a positive value for y.
The ordered pair of the image's vertices has the form (-x, -y).
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what are the basic requirements for a terrestrial world to have a global magnetic field? group of answer choices a metal core and rapid rotation a metal core, a rocky mantle, and sufficiently rapid rotation a core that has a molten layer and a mantle that has convection a core layer of molten, convecting material and sufficiently rapid rotation
A terrestrial world requires a molten core with convecting material and sufficiently rapid rotation to have a global magnetic field(d).
A global magnetic field on a terrestrial world is generated by the motion of molten iron in its core. The convection of this molten material creates electrical currents that, in turn, generate a magnetic field. This process requires a molten layer in the core and sufficiently rapid rotation to generate the necessary convection.
The presence of a rocky mantle is not necessary, although it may contribute to the generation and maintenance of the magnetic field. Therefore, a terrestrial world must have a molten core with convecting material and sufficient rotation to have a global magnetic field.
So d is correct option.
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Which of the following is not an accurate statement about the melting process in the earth's interior?
A) Melting of rocks is incomplete with partial melts extracted as magma and solid residues left behind.
B) Upwelling flow in the earth's interior brings higher temperature rocks toward the surface and contributes to decompression melting.
C) The earth's mantle is entirely molten.
D) Addition of water commonly contributes to production of magma.
The answer is option C) The earth's mantle is entirely molten. This statement is not accurate as the earth's mantle is not entirely molten.
While there are regions in the mantle that are partially molten, most of the mantle is solid. The melting process in the earth's interior involves various factors such as temperature, pressure, and the composition of the rock. Option A is an accurate statement as rocks do not completely melt, and partial melts are extracted as magma while solid residues are left behind. Option B is also accurate as upwelling flow in the earth's interior brings hotter rocks closer to the surface, resulting in decompression melting.
Option D is also true as the addition of water to the rock can contribute to the production of magma by lowering the melting point of the rock. Therefore, the correct answer is C, and it is not an accurate statement about the melting process in the earth's interior.
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Let's say we have atmospheric conditions in which subrefraction is occurring. Let's say our Radar screen indicates an object at 35,000 feet. At what height is this object ACTUALLY at?
If there are atmospheric conditions causing subrefraction, it means that the radar signals are bending downwards towards the ground instead of following a straight path. This can cause the object to appear higher on the radar screen than its actual height.
So, if the radar screen indicates that the object is at 35,000 feet, it is likely that the object is actually at a lower height due to subrefraction. The exact height would depend on the severity of the atmospheric conditions and the distance between the radar and the object.
In short, the height of the object cannot be accurately determined without taking into account the subrefraction caused by the atmospheric conditions.
To determine the actual height of the object during subrefraction, we need to consider the effect of subrefraction on the radar reading. Subrefraction causes objects to appear higher than they actually are due to the bending of radar waves.
Step 1: Identify the refraction factor
Since we don't have a specific refraction factor provided in the question, let's assume the refraction factor (k) is 0.8 for this example. Note that this factor varies depending on atmospheric conditions.
Step 2: Calculate the corrected height
To find the actual height of the object, multiply the indicated height by the refraction factor (k).
Actual height = Indicated height * k
Actual height = 35,000 feet * 0.8
Actual height = 28,000 feet
So, under the given atmospheric conditions with subrefraction, the object is actually at a height of 28,000 feet.
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geologists have found ancient deposits of lava and volcanic ash extending southwest from the yellowstone hotspot to nevada. what can you infer from this observation?
The observation of ancient deposits of lava and volcanic ash extending southwest from the Yellowstone hotspot to Nevada suggests that the Yellowstone hotspot has been active for a long time and has moved slowly over geological time.
This movement of the hotspot is due to the motion of the North American tectonic plate, which has been moving westward over the hotspot for millions of years. The observation of ancient deposits of lava and volcanic ash extending southwest from the Yellowstone hotspot to Nevada suggests that the Yellowstone hotspot has been active for a long time and has moved slowly over geological time. The volcanic activity associated with the Yellowstone hotspot has left a trail of lava and ash deposits that can be used to track the movement of the hotspot over time. This type of observation is important for understanding the geological history of the region and for assessing potential hazards associated with volcanic activity.
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Today, the economics of China and Taiwan…
Today, the economics of China and Taiwan are in in different stages of development.
How are China and Taiwan different in economics?China, with its tremendous populace, bountiful resources, and formidable government-directed tactics has rapidly established itself as one of the swiftest expanding economies in recent years, ultimately claiming the title of the world's second largest economy.
Conversely, the economic progress of Taiwan is mainly dependent on its manufacturing industry which concentrates on producing high-tech merchandise like machines and electronics, exhibiting gradual but constant evolution across other sectors.
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Which term do geologists use to refer to sandstone that is mostly composed of feldspar grains?
Question 4 options:
Greywacke
Arkose
Flysch
Bentonite
The answer of the question is The term geologists use to refer to sandstone that is mostly composed of feldspar grains is "Arkose."
Arkose is a type of sandstone that is mainly composed of feldspar grains, along with other minerals like quartz and mica. This type of sandstone is typically found in areas where there has been significant erosion and weathering of feldspar-rich rocks, such as granite. The high percentage of feldspar in arkose gives it a distinctive reddish color and a coarse texture.
It usually has a reddish color due to the presence of feldspar, and it is often found in association with granite or other feldspar-rich rock formations.
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select on the map the region that prospered during the 1950s in large part due to the booming automobile industry.
The region that prospered during the 1950s in large part due to the booming automobile industry was the Midwest, specifically the states of Michigan, Ohio, and Indiana. These states were home to major automobile manufacturers such as Ford, General Motors, and Chrysler, which drove economic growth and job creation in the region.
The region that prospered during the 1950s largely due to the booming automobile industry is the Midwestern United States, particularly the area around Detroit, Michigan. This region became known as the "Automotive Capital of the World" as major car manufacturers such as Ford, General Motors, and Chrysler established their headquarters and production facilities there, leading to significant economic growth and prosperity.
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the various processes that result in the loss of a glacier's mass are known collectively as
The various processes that result in the loss of a glacier's mass are known collectively as glacial mass balance.
This refers to the difference between the amount of ice added to a glacier (via snowfall and other forms of precipitation) and the amount of ice lost (via melting, calving, and sublimation). Glaciers can experience changes in mass balance due to a variety of factors, including variations in temperature and precipitation patterns, as well as human activity such as deforestation and greenhouse gas emissions.
In recent years, the rate of glacial mass loss has accelerated dramatically, leading to concerns about rising sea levels and other impacts of climate change. Understanding the processes that contribute to glacial mass balance is therefore critical for predicting and mitigating the effects of global warming.
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the photo above shows a series of groins built on newport beach, ca. based on the pattern of beach erosion and sediment deposition around the groins, which direction is the dominant longshore drift?
Based on the pattern of beach erosion and sediment deposition around the groins on Newport Beach, CA, the dominant longshore drift appears to be from south to north.
This can be determined by observing that the beach is eroded more heavily on the southern side of the groins and sediment is deposited more heavily on the northern side. Based on the pattern of beach erosion and sediment deposition around the groins at Newport Beach, CA, the dominant longshore drift direction can be determined by observing the accumulation of sand on one side of the groins and erosion on the other side. If sand is accumulating on the updrift side (the side with more sand) and eroding on the downdrift side (the side with less sand), the dominant longshore drift direction is towards the downdrift side. Based on the pattern of beach erosion and sediment deposition around the groins on Newport Beach, CA, the dominant longshore drift appears to be from south to north.
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_____is defined as the shape of earth's surface or the geometry of landforms in a geographic area.
Topography is defined as the shape of Earth's surface or the geometry of landforms in a geographic area.
Topography is a combination of the Greek words "topo," which means place, and "graphia," which means to record or write. Topographic maps are those that depict topography. The study of topography focuses on the shapes and characteristics of land surfaces. The topography of a region can refer to the actual land shapes and features or to a description or map representation of such aspects.
The depth of the ocean floor, the shape of mountains, and the steepness of slopes can all be displayed using contours. Other geographic features such as highways, railroads, rivers, streams, lakes, boundaries, place or feature names, mountains, and much more are also shown on USGS topographic maps.
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calculate the volume of precipitation per year, or inflow rate. to do this multiply the aurface area of the ice caps by the estimated depth of precipitation per year, aiming for a result in km3/yr
To calculate the volume of precipitation per year or inflow rate, you need to first estimate the surface area of the ice caps and the depth of precipitation per year.
Once you have these values, you can multiply them together to get the volume of precipitation per year in km3/yr. For example, let's say the estimated surface area of the ice caps is 10,000 km2 and the estimated depth of precipitation per year is 1 meter. To calculate the volume of precipitation per year, you would multiply these values together: Volume of precipitation per year = surface area x depth of precipitation Volume of precipitation per year = 10,000 km2 x 1 meter Volume of precipitation per year = 10,000 km3/yr So the volume of precipitation per year for this example would be 10,000 km3/yr.
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Reversals of earth's magnetic field recorded in basaltic oceanic crust show a ___pattern on either side or the mid oceanic ridges. This evidence supports seafloor spreading and indicated that new rock is formers at the ridges and then moves outward in a conveyor belt type of motion
Reversals of earth's magnetic field recorded in basaltic oceanic crust show a symmetrical pattern on either side of the mid-oceanic ridges. This evidence supports seafloor spreading and indicates that new rock is formed at the ridges and then moves outward in a conveyor belt type of motion.
The symmetrical pattern of the magnetic polarity reversals in basaltic oceanic crust indicates that the seafloor is spreading apart at the mid-oceanic ridges. New rock is continuously being formed at these ridges, from magma that rises up from the mantle and solidifies, and then moves away from the ridge in both directions. This process is known as seafloor spreading, and it is a key part of the theory of plate tectonics. Over time, this movement of the seafloor can cause continents to shift and drift, leading to changes in the global geography of the Earth.
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decide which of the observations about the moon are true and support the giant impact formation hypothesis, which are true but unrelated to the giant impact formation hypothesis, and which are false.Answer Bank Lava is flowing on the surface of the Moon. The Moon has fewer impact craters than the Earth today. The Moon is the only other place in the Solar System that humans have walked on, besides Earth The Moon goes through phases that are visible from Earth. The Moon's overall composition is somewhat different from the Earth's overall composition. The Moon's average density is the same as the Earth's. The Moon's composition is similar to the composition of Earth's outer layers. False True and supports the giant impact formation hypothesis True but unrelated to the giant impact formation hypothesis
The true and supported hypothesis is that the Moons composition is similar to Earth's outer layers.
This is a hypothesis as it is not truly proven but has relevant evidence and more investigation has to be done to make it entirely accurate.
The lunar mantle present on the moon is believed to consist of olivine, clinopyroxene, and orthopyroxene. We also know that Earth also has a mantle.
Both of these mantles are somewhat similar in nature. But it is believed that the moon's mantle has iron in more percentage than the Earth's. Moon also has layers or mantle, core, and burst like Earth.
Moon seems less thicker on the side facing towards Earth but it is way more thicker on the other way.
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What are two ways that existing rock material can be transported to a new location?
Existing rock material can be transported to a new location through two primary processes: Erosion and Mass wasting.
Existing rock material can be moved to a new location using one of two methods:
Weathering and the transfer of rock fragments and soil by water, wind, or ice are examples of erosion. Water, wind, and ice can erode away rock material and transport it to a new area when they move over it. Canyons, valleys, and sedimentary rock formations can arise from this process.The movement of rock material down a slope caused by gravity is known as mass wasting. This can happen when the slope's angle gets too steep or when there is a destabilising force present, such as an earthquake or severe rain. Landslides, rockfalls, and debris floods are examples of mass wasting.For such more question on rock material:
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how was water likely delivered to the early earth?a) evaporation b) precipitation c) meteorites and) volcanic eruptions
Water was likely delivered to the early Earth through meteorites and comets that collided with the planet.
These objects are believed to have contained significant amounts of water, which was released upon impact. Additionally, water vapor was likely released from volcanic eruptions and may have contributed to the formation of oceans on the early Earth.There are a few theories about how water was delivered to the early Earth:
Comets and asteroids: This theory suggests that water was delivered to Earth by comets and asteroids that collided with the planet during its early formation. Comets and asteroids are believed to contain large amounts of ice, and when they collide with Earth, the ice melts and becomes water.
Volcanic outgassing: This theory proposes that water was released from the interior of the Earth through volcanic activity. As magma rises to the surface, it releases gases, including water vapor, which can then condense into liquid water.
Chemical reactions: This theory suggests that water was formed through chemical reactions that took place on the early Earth. Some scientists believe that water could have been produced through the reaction of hydrogen and oxygen in the atmosphere or in the presence of volcanic gases.
Extraterrestrial sources: Some researchers propose that water was brought to Earth by extraterrestrial sources such as comets, asteroids, or even other planets.
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a teacher would like to assess students' understanding of what to do during a natural hazard, such as a lightning storm or a tornado. which of the following would be the most effective way to do this?
The most effective way for a teacher to assess students' understanding of what to do during a natural hazard, such as a lightning storm or a tornado, would be to conduct a simulation exercise or a role-play activity. This method allows students to actively demonstrate their knowledge and skills in responding to natural hazards in a controlled and safe environment, while the teacher observes and provides feedback for improvement.
This would allow the students to actively practice and demonstrate their knowledge of the appropriate safety measures to take during a natural hazard such as a lightning storm or tornado. It would also provide an opportunity for the teacher to observe and provide feedback on the students' responses to the simulated situation, ensuring that they have a clear understanding of the potential hazards and how to respond to them effectively.
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Why does the equator receive equal day and night?
Answer:
At the equator, the sun is directly overhead at noon on these two equinoxes. The "nearly" equal hours of day and night are due to refraction of sunlight or a bending of the light's rays that causes the sun to appear above the horizon when the actual position of the sun is below the horizon.
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The equator receives equal
day
and night because it is the imaginary line that lies exactly halfway between the North and South Poles.
As the
Earth
rotates on its axis, every point on the equator experiences 12 hours of daylight and 12 hours of darkness, making the duration of day and night equal.
This is due to the fact that the
angle
between the sun's rays and the Earth's surface at the equator is 90 degrees, resulting in an even distribution of sunlight across the region.The equator receives equal
day
and night because of its position on the
Earth's
surface. The equator is an imaginary line that runs horizontally around the middle of the Earth, dividing it into the Northern and Southern Hemispheres. The Earth rotates on its axis, which is tilted at an angle of 23.5 degrees relative to its orbit around the Sun.Throughout the year, the Earth's tilt causes different parts of the planet to receive varying amounts of sunlight. However, at the equator, the angle of the Earth's tilt does not significantly
affect
the amount of sunlight it receives. As a result, the equator experiences approximately 12 hours of daylight and 12 hours of night throughout the year, leading to equal day and night durations.
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The "G" in GOES stands for "geosynchronous." What does this mean?!
The "G" in GOES stands for "geosynchronous," which refers to the satellite's orbital characteristics.
In a geosynchronous orbit, a satellite revolves around the Earth at the same speed as the Earth's rotation. This means that the satellite appears to be stationary in the sky when observed from a fixed point on Earth's surface, allowing for continuous monitoring of a specific region.
GOES, or Geostationary Operational Environmental Satellite is a series of weather satellites operated by the United States. These satellites are placed in geosynchronous orbits to provide constant, real-time weather data and observations over a large area, such as a continent or an ocean. The primary advantage of geosynchronous satellites like GOES is their ability to provide uninterrupted observations, which is crucial for accurate weather forecasting and monitoring of severe weather events.
In summary, the term "geosynchronous" in GOES highlights the satellite's orbital pattern that enables it to maintain a constant position relative to Earth's surface. This characteristic is vital for providing continuous, real-time data for weather monitoring and forecasting.
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identify statements true of landslides and tsunamis. choose one or more: a. large landslides, such as those involving partial collapse of steep-sided islands, have triggered tsunamis of regional or global extent. b. landslides and rockfalls are capable of producing only local tsunamis. c. landslides can trigger tsunamis by rapidly displacing a mass of ocean water. d. landslides can trigger tsunamis by creating earthquake waves.
Large landslides, such as those involving partial collapse of steep-sided islands, have triggered tsunamis of regional or global extent. This occurs when massive volumes of material enter the water and displace it, generating powerful waves that can travel long distances.
Landslides and rockfalls are capable of producing local tsunamis. When a smaller volume of material enters the water, it can still generate waves, although they may be more localized in comparison to those created by large landslides. Landslides can trigger tsunamis by rapidly displacing a mass of ocean water. As a large mass of rock or sediment collapses into the water, it displaces the surrounding water, creating waves that can propagate outwards and cause a tsunami.
In summary, landslides have the potential to trigger tsunamis on both local and global scales. This occurs when a significant amount of material, such as rock or sediment, enters the water and rapidly displaces it, generating waves that can travel far and wide.
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the himalaya mountains are located along a portion of the southern boundary of the eurasian plate. near the top of mt. everest (29,028 feet) in the himalaya mountains climbers have found fossilized marine shells 218 chapter 8: plate tectonics in the surface bedrock. from this observation, which statement is the best inference about the origin of the himalaya mountains?
The best inference about the origin of the Himalaya Mountains based on the observation of fossilized marine shells near the top of Mt. Everest is that the mountains were formed through the collision of the Indian and Eurasian plates.
This collision caused the Indian plate to be forced beneath the Eurasian plate, which led to the formation of the Himalayas. The presence of marine fossils suggests that the area was once covered by a sea, which supports the theory of plate tectonics and continental drift.
The best inference about the origin of the Himalaya Mountains, considering the discovery of fossilized marine shells near the top of Mt. Everest, is that these mountains were formed due to the collision of tectonic plates, which uplifted and compressed marine sediments to form the highest peaks in the world. This indicates that the area was once covered by an ocean, and the immense geological forces resulting from the ongoing convergence of the Indian and Eurasian plates pushed the seafloor upwards to create the Himalayas.
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what is standard sea level air pressure in millibars; in inches of mercury; in pounds per square inch (psi)?
Standard sea level air pressure is measured in different units. In millibars, it is approximately 1013.25 mbar; in inches of mercury, it is about 29.92 inHg; and in pounds per square inch (psi), it is around 14.7 psi.
Understanding Standard sea level air pressureStandard sea level air pressure, also known as atmospheric pressure, refers to the force exerted by the weight of the atmosphere at sea level. In different units, this pressure is expressed as follows:
1. In millibars (mb): The standard sea level air pressure is approximately 1013.25 mb. Millibars are commonly used in meteorology to measure atmospheric pressure.
2. In inches of mercury (inHg): The standard air pressure at sea level can also be expressed as 29.92 inHg. This unit is derived from the height of a column of mercury that the atmospheric pressure can support.
3. In pounds per square inch (psi): Lastly, the standard sea level air pressure can be measured in psi, with a value of approximately 14.7 psi.
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choose the correct explanation of why is that gas important to galaxy evolution. choose the correct explanation of why is that gas important to galaxy evolution. halo gas and intergalactic gas were blown from the galaxy in the early stages of its evolution. halo gas and intergalactic gas supply cold gas to the galaxies for star formation. halo gas and intergalactic gas are the remnants of dead galaxies. halo gas and intergalactic gas counteract galaxies' gravitational pull to one another.
The correct explanation for why halo gas and intergalactic gas are important to galaxy evolution is that they supply cold gas to the galaxies for star formation. Gas is the fuel for star formation and without it, galaxies cannot form new stars.
The halo gas and intergalactic gas are thought to be the primary sources of this gas. This gas is not only important for the formation of stars but it also plays a crucial role in the overall evolution of galaxies. As stars are formed, they release energy into the gas around them, causing the gas to heat up and expand. This, in turn, affects the dynamics of the galaxy and can even influence how it evolves over time. Therefore, understanding the role of halo gas and intergalactic gas in supplying cold gas to galaxies for star formation is crucial in understanding the evolution of galaxies.
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