Salt marsh vegetation can help prevent erosion and stabilize shorelines.
Salt marshes are coastal wetlands that are regularly flooded and drained by salt water brought in by the tides. Salt marshes are found in temperate and high-latitude areas throughout the world's coastlines, from tropical regions to polar regions.
Salt marshes play a significant role in protecting coastlines from erosion by buffering the force of waves and tides, absorbing storm surges, and holding sediment in place with the roots of vegetation. In addition, they protect low-lying regions from the dangers of coastal flooding by absorbing storm surges and dissipating wave energy. As a result, salt marshes serve as a crucial buffer between the ocean and land, safeguarding the coast and its inhabitants from the hazards of coastal erosion and flooding.
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based upon what occurred during the magnitude 9.0 earthquake on the cascadia subduction zone in 1700, how might an earthquake there affect the california coastline?
The magnitude 9.0 earthquake that occurred in the Cascadia Subduction Zone in 1700 could have a devastating impact on the California coastline. . It caused a massive tsunami to form, which traveled all the way to Japan and destroyed many coastal towns along the way. Additionally, the earthquake caused a powerful lateral spreading of the ground, which caused landslides in some areas and tsunamis in others. These tsunamis could potentially cause destruction along the California coastline if the same type of earthquake were to occur in the future.
It is important to note that the California coastline is composed of three different fault lines: the San Andreas, the Mendocino, and the Cascadia Subduction Zone. If an earthquake were to occur on the Cascadia Subduction Zone, it would most likely cause the most destruction. This is because of the close proximity of the two fault lines and the potential for powerful waves to be produced.
Furthermore, an earthquake on the Cascadia Subduction Zone would have the potential to trigger other earthquakes along the other two fault lines. These earthquakes could potentially cause large amounts of destruction due to their power and the fact that they could spread over a larger area.
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A __________ is formed when the coastline changes direction and the water movement slows, causing sediment and sand to continue to be deposited in an extension of the land that is bending.
A bay is formed when the coastline changes direction and the water movement slows, causing sediment and sand to continue to be deposited in an extension of the land that is bending.
A bay is usually open to the ocean but is also connected to a larger body of water, such as a sea or lake. Bays are usually sheltered from the open ocean's full force, making them good natural harbors for shipping, fishing, and other water-related activities. A bay is a natural formation that is surrounded by land on three sides, making it an extension of the coastline. It is commonly created when sea levels rise and erode the coastline, or when land is thrust upward or subsides. Bays can vary in size and shape, from small coves to large bodies of water, such as the Chesapeake Bay or the Bay of Bengal.
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Landslide – Portuguese Bend, CA. The Problem 1 placemark flies you to the Portuguese Bend area in California. This region has experienced a massive (and progressive) landslide that has cannibalized the subdivision that once existed on the cliffs overlooking the ocean. How did urbanization likely contribute to cause the mass wasting? You may want to use your textbook. Choose one: a. Vibrations from traffic destabilized the slope. B. Concrete allowed the underlying soil to dry out and lose cohesion. C. Landscape plants (e. G. , trees, bushes) disrupted the stability of the soil. D. Water from septic systems, sprinklers, etc. , lubricated a layer of bentonite clay that slopes toward the ocean
The correct option is D. that is Water from septic systems, sprinklers, etc. , lubricated a layer of bentonite clay that slopes toward the ocean.
The Portuguese Bend landslide, in coastal southern California, is an active, slow-moving mass of blocks and debris that spans from the seashore to modest altitudes along part of the southerly boundary of the Palos Verdes Hills.
Earthflow, rotational, and translational slides all combine to form the Portuguese Bend Landslide. An older, more substantial slide was revived to create the modern slide.
Portuguese Bend, California, landslip. The Problem You can fly to the Portuguese Bend region of California with just 1 placemark. The community that used to be on the cliffs overlooking the ocean has been cannibalized by the significant (and progressive) landslip that occurred in this area. urbanisation likely contributes to cause mass wasting A layer of bentonite clay that slopes towards the ocean was lubricated by water from sprinklers, septic systems, etc.
The Portuguese Bend landslide is a slow-moving mass of blocks and debris that extends from the beach to modest altitudes along a portion of the southern edge of the Palos Verdes Hills in coastal southern California.
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Look at the image below that shows the chances of getting a direct hit by a hurricane during the month of September (usually the busiest month for hurricanes). If you visited Cuba during September, what are your chances of experiencing a direct hit by a hurricane?
(A.) There is an 8 percent chance of a direct hit by a hurricane.
(B.) There is a 2 percent chance of a direct hit by a hurricane.
(C.) There is a 4 percent chance of a direct hit by a hurricane.
(D.) There is no chance of a direct hit by a hurricane.
Answer:
(B.) There is a 2 percent chance of a direct hit by a hurricane
.Explanation:
the red is incorrect
retinotopic maps, which preserve spatial information from the visual field, can be found in which areas of the visual system?
Retinotopic maps, which preserve spatial information from the visual field can be found in Retina,LGN and V1.
FMRI retinotopic mapping can be used to identify low-level visual areas in particular subjects without requiring any intervention. The majority of the time, it is based on the functional analysis of responses to repetitive visual stimuli that encode the visual field's eccentricity or polar angle. fMRI retinotopic mapping can precisely determine the relationship between the subject's particular brain representation and the visual field.
Hemifield Visual Stimulations are related to Retinotopic Relationship Mapping in the LGN. Additionally, it permits the precise localization of functional imaging data in relation to the visual system's functional architecture. This makes it a powerful apparatus for looking at the retinotopic qualities of visual regions in both sound and harmed cerebrums.
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Quick question for 50 points! True or false: After decolonization in the latter 20th century, the imperialists left behind stable governments and a generally well-cared population.
False. After decolonization in the latter 20th century, many colonized countries faced significant challenges in establishing stable governments and creating sustainable economic systems. The imperial powers often left behind political and economic structures that were not designed to meet the needs of the local population, and this legacy of colonialism led to a range of ongoing issues such as poverty, corruption, and political instability. While some post-colonial nations have been able to establish stable democracies and economies, this has often been a long and difficult process, and many continue to struggle with the lasting effects of colonialism.
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in china, mining for rare earth metals has led to the pollution of air and streams and left land stripped of vegetation. this is due to .
Answer:
the lack of strict environmental regulations
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what process caused the largest tsunami run-up (the height water reached on land) recorded in the past 100 years?
The largest tsunami run-up (the height water reached on land) recorded in the past 100 years was caused by the 1958 Lituya Bay megatsunami in Alaska.
The tsunami was triggered by a massive rockfall and landslide from the nearby Lituya Mountain, which fell into the bay and generated a wave that reached a height of 1,720 feet (524 meters) above sea level. The wave traveled across the bay and destroyed the surrounding forests, stripping away all vegetation and leaving behind only bare rock. The Lituya Bay megatsunami remains the largest recorded tsunami run-up in history, and it serves as a reminder of the destructive power of natural disasters.
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why do we get different types of precipitation (rain, snow, sleet, freezing rain, and hail)? use the words--atmosphere, clouds, air temperature, ground.
Different types of precipitation such as rain, snow, sleet, freezing rain, and hail occur due to various factors.
The following is how the atmosphere, clouds, air temperature, and ground are related to different types of precipitation.
Atmosphere:
The atmosphere is the layer of gases that surround the earth. Different atmospheric conditions create different types of precipitation. The air temperature, humidity, and air pressure at a given location determine the type of precipitation that will occur. For instance, if the temperature is below freezing point, precipitation will fall as snow. If it is above freezing point, it will fall as rain. Clouds play a crucial role in the formation of precipitation.
Precipitation forms when water droplets and ice crystals in clouds become heavy and fall to the ground. Clouds that contain high levels of moisture produce more precipitation. If the clouds are high up in the atmosphere, the precipitation will freeze and fall as snow, sleet, or hail.
Air temperature the temperature in the air determines the type of precipitation that will fall. If the temperature in the atmosphere is below freezing point, precipitation will freeze and fall as snow or sleet. If the temperature is above freezing point, the precipitation will fall as rain.
Freezing rain:
Freezing rain occurs when the air temperature is below freezing point, but the ground temperature is above freezing point. The precipitation falls in the form of raindrops, but it freezes on contact with the ground due to the low temperature.
Hail is the largest form of precipitation, and it forms when updrafts of warm air and downdrafts of cold air occur in a thunderstorm cloud.
When raindrops move upwards and freeze due to the low temperature, they fall as hailstones. The ground The ground temperature influences the type of precipitation that will fall. If the temperature is below freezing point, precipitation will freeze and fall as snow or sleet. If the temperature is above freezing point, the precipitation will fall as rain. Freezing rain occurs when the temperature is below freezing point, but the ground temperature is above freezing point.
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at night, the air above the mountain slopes and drains into the warm valley below, creating a .
At night, a process called radiation cooling causes the air on the mountain slopes to cool more quickly than in the valley below. This creates a temperature inversion, where the air temperature at the top of the mountain is cooler than at the base.
The temperature inversion also has other effects, such as creating a stable layer of air that traps pollutants near the ground and limits visibility. Additionally, the process helps to distribute moisture more evenly throughout the environment.
This is a vital part of many mountain ecosystems, and an important factor to consider when studying climate patterns and air quality in mountainous areas.
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student exploration: reading topographic maps vocabulary: contour interval, contour line, depression contour, elevation, gradient, index contour, relief, topographic map prior knowledge questions (do these before using the gizmo.) a house sits on the side of a small hill near a lake. the elevation, or height, of each point above the lake is shown by the contour lines on the landscape below. suppose it rained for a while, and the lake level rose up 5 meters. would the house be safe? explain. what would happen if the lake level rose 10 meters?
If the lake level rose 10 meters, the house might not be safe because it would be closer to the lake, and there might be a risk of flooding.
What are topographic maps?
Topographic maps are a type of map that shows the terrain, or the physical features of the Earth's surface. These features include mountains, hills, valleys, and other elevation changes.
The use of contour lines to show the elevation of the land is the most characteristic feature of a topographic map. Contour lines are lines that connect points of equal elevation, and they are usually drawn at regular intervals, known as the contour interval. Contour intervals vary according to the purpose and scale of the map.
Topographic maps also show other features such as rivers, lakes, forests, and urban areas.
What are the prior knowledge questions?
Before using the gizmo, you should answer the prior knowledge questions.
In this case, the prior knowledge questions are: Suppose a house sits on the side of a small hill near a lake.
The elevation or height of each point above the lake is shown by the contour lines on the landscape below. Suppose it rained for a while, and the lake level rose up 5 meters.
Would the house be safe?
Yes, the house would still be safe if the lake level rose up 5 meters because the house is located on the side of the hill, and the hill is higher than the level of the lake. As the lake rises, the contour lines on the map would shift upwards to reflect the new elevation.
However, the position of the house relative to the lake and the hill would remain the same.
What would happen if the lake level rose 10 meters?
if the lake level rose 10 meters, the house might not be safe because it would be closer to the lake, and there might be a risk of flooding. The contour lines on the map would shift upwards even further, and the lake would be represented by a new contour line. If this contour line intersects the house, it means that the house would be at the same elevation as the lake and could be flooded.
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Rectangle PQRS has vertices P(-3,3),Q(6,-3),andS(-3,-3). Graph the rectangle and its image after dilation with the scale factor 1/3
The image with a 1/3 scale dilation factor is P'Q'R'S' and its corresponding values are (-1.1), (2.1), (1.1), and (1.2).
How can a rectangle dilate?The scale factor of that dilatation is the name given to that figure. Also The distance between each point in the rectangle and its center will be scaled by that one dilation factor if the dilation is measured from the center of the rectangle.
The origin will serve as the center of the 1/3 scale-factor dilatation, and the coordinates will be (x, y) — (kx, ky), where k is the scale factor, or 1/3.
The formula for this is (1/3x, 1/3y).
About point P (- 3, 3)
P' = The image of P (-1. 1)
About point Q (6, -3)
The depiction of Q (1, 2)
About point R (-3, - 3)
Picture of R' (1, -1)
As a result, the image with a 1/3 scale factor dilation is P'Q'R'S' are (-1. 1),(1, 2),(1, -1) and accordingly.
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explain latitude and altitude and tell how temperature, latitude, and altitude affect which plants grow in an area.
Latitude and altitude are two measurements used to describe geographic locations. Latitude measures the distance from the equator and altitude measures the height above sea level.
Temperature, latitude, and altitude all affect which plants grow in an area. Plants tend to grow best in temperatures within their ideal range.
If a plant is not able to tolerate the extreme temperatures in an area, it may not be able to survive. In addition, the further away from the equator a location is, the less sunlight it will receive. This may prevent some plants from receiving the energy they need to thrive.
Lastly, if a location is too high in altitude, the air may be too thin for some plants to survive. Altitude can also affect the soil composition, which can also have an impact on plant growth. All of these factors can have a major impact on which plants can grow in an area.
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what phrase(s) could you add to the concept map to connect joints to other terms, which may or may not already be present in the concept map? select all that apply.
To connect joints to other terms in the concept map, the following phrases could be added: Periosteum, Muscles, Ligaments, Tendons, Articular cartilage, Synovial membrane.
To help understand the concept better, a concept map is a graphic representation that shows how concepts are connected with each other. To make connections to other terms, phrases are used in a concept map.
For instance, joints are connected to other terms such as periosteum, muscles, ligaments, tendons, articular cartilage, and synovial membrane. This is because joints consist of these parts that enable them to move.
Joints: Joints are the places where bones connect to each other. They are made up of different parts that work together to allow movement.
Periosteum: Periosteum is a thin layer of tissue that covers the outside of bones.
Muscles: Muscles are tissues in the body that produce movement.
Ligaments: Ligaments are strong, flexible bands of tissue that connect bones to other bones.
Tendons: Tendons are tough, fibrous bands of tissue that connect muscles to bones.
Articular cartilage: Articular cartilage is a smooth, tough layer of tissue that covers the ends of bones where they come together to form joints.
Synovial membrane: Synovial membrane is a thin layer of tissue that lines the inside of joints.
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The oldest abundant fossils of complex multicellular life w/shells and other hard parts date from the: a. Precambrain b. Paleozoic c. Mesozoic d. Cenozoic.
The oldest abundant fossils of complex multicellular life with shells and other hard parts date from the Paleozoic era. The correct option is B. Paleozoic.
This era, which lasted from about 541 to 252 million years ago, is sometimes referred to as the Age of Invertebrates because of the many different types of invertebrates that thrived during this time. The Cambrian explosion, which occurred about 541 million years ago, marks the beginning of the Paleozoic era.
During this period, there was a sudden and rapid increase in the diversity of life on Earth, including the appearance of the first multicellular organisms with hard parts like shells and skeletons. This included trilobites, brachiopods, mollusks, and other types of invertebrates.
Later in the Paleozoic era, there were several mass extinction events, including the Permian-Triassic extinction event which wiped out 96% of all marine species. However, the survivors of these events went on to diversify and evolve into the complex and diverse array of life we see on Earth today.
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besides using the compositions and textures of sedimentary rocks to help identify them, what are some other distinctive properties that we can look at to help us identify an unknown sedimentary rock?
Besides using the compositions and textures of sedimentary rocks to help identify them, some other distinctive properties that we can look at to help us identify an unknown sedimentary rock are color, hardness, and density.
Sedimentary rocks are rocks that are formed from the accumulation or cementation of sediment (rock fragments, mineral grains, animal and plant debris, and other materials) over time.
Sedimentary rocks are usually stratified, and they often contain fossils of animals and plants. In comparison to other rock types, sedimentary rocks cover a much larger portion of the Earth's surface, including the majority of the continents and the bottom of the oceans.
Sedimentary rocks are usually soft, and they are frequently utilized as building materials, as well as in the manufacture of bricks, ceramics, and cement.
The density of a rock is influenced by its composition, porosity, and the presence of voids. For example, sandstone is typically denser than shale, while limestone is less dense than both of them.
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Besides using the compositions and textures of sedimentary rocks to help identify them, what are some other distinctive properties that we can look at to help us identify an unknown sedimentary rock?
how do we know that the washington and oregon coasts have experienced numerous large tsunamis in the past?
There is strong evidence that the Washington and Oregon coasts have been subjected to numerous large tsunamis in the past. When seismic waves are generated by a submarine earthquake, a tsunami is formed.
Seismic activity may cause sea level fluctuations that can lead to surges in water volume and tsunami waves. Tsunamis from earthquakes, landslides, and volcanic activity have affected the Pacific Northwest in the past, as evidenced by the following factors:
The discovery of thousands of old logs on the Washington coast, which have been confirmed to be evidence of past tsunamis. Large deposits of sand in areas that are currently dominated by forest, such as the Willapa Bay area. Layers of sand, gravel, and debris in bogs and other natural landscapes.A tsunami deposit that has been verified in a test trench in Seaside, Oregon. The evacuation of villages to higher ground on oral and written accounts in Native American and First Nations communities along the coast. Evidence of a tsunami deposit in the area between the most significant historic tsunami in 1964, which struck Alaska and traveled down the west coast, and the previous significant historical tsunami, which struck in 1700.
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he san andreas fault is... group of answer choices associated with deep focus earthquakes a world-famous example of a hot spot is an intraplate fault within the juan de fuca plate an oceanic transform fault a continental transform fault
The San Andreas Fault is a continental transform fault, which is a type of fault that occurs at the boundary between two tectonic plates.
The San Andreas Fault marks the boundary between the Pacific Plate and the North American Plate. The two plates slide past each other horizontally in opposite directions. As the plates move, they cause earthquakes with deep focus, which are powerful earthquakes that occur far beneath the surface.
An example of a world-famous hot spot is the Hawaii Islands, which form due to magma rising up from the Earth's mantle. This is a form of intraplate volcanism, which occurs at locations that are not on tectonic plate boundaries. In contrast, transform faults are located on plate boundaries, and the San Andreas Fault is a prominent example.
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what latitude in the northern hemisphere would have a noon sun angle (maximum zenith) of approximately 53 degrees on may 10th? (use the closest equinox date for calculation).
A latitude of about 52.6 degrees would have a noon sun angle of 53 degrees on May 10th in the Northern Hemisphere.
In order to calculate the latitude in the Northern Hemisphere that would have a noon sun angle of around 53 degrees on May 10th, the nearest equinox date for the calculation should be used. The following formula will be used to calculate the latitude of a noon sun angle of 53 degrees on May 10th in the Northern Hemisphere:LAT = 90 - Sun angle - DeclinationThe declination for May 10th will be determined using the following formula:
Dec = -23.5 * cos(360 / 365 * (284 + N)) Where N is the number of days since January 1st. N equals 130 for May 10th because it is 130 days since January 1st. Thus:Dec = -23.5 * cos(360 / 365 * (284 + 130)) = -15.6 degrees Substituting -15.6 degrees and 53 degrees into the latitude formula:LAT = 90 - 53 - (-15.6) = 52.6 degrees
Thus, a latitude of about 52.6 degrees would have a noon sun angle of 53 degrees on May 10th in the Northern Hemisphere.
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the upper portion of the glacier where individual grains of ice do not move relative to one another is the.
The upper portion of a glacier where individual grains of ice does not move relative to one another is called the firn line.
Firn is the intermediate stage between snow and glacial ice, and forms when snow is compacted under its own weight and recrystallizes. This line is found at the top of the glacier, where temperatures and pressures are too low for recrystallization.
The firn line marks the boundary between the accumulation zone, where more snow accumulates than melts or sublimates, and the ablation zone, where more snow melts or sublimates than accumulates. It is an important reference point for measuring glacier mass balance, as any movement of the firn line indicates a change in the amount of snow accumulation or snow melts.
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explain the three major characteristics of magma that determine how explosive a volcanic eruption will be.
Magma’s three major characteristics that determine how explosive a volcanic eruption will be are temperature, viscosity, and dissolved gases.
Temperature - Hot magma is more buoyant, leading to faster and more violent eruptions. Cooler magma is denser, and therefore has a slower eruption.
Viscosity - The higher the viscosity of the magma, the less likely it is for gases to escape, leading to a more explosive eruption.
Dissolved gases - Magma can contain dissolved gases such as water vapor and carbon dioxide. The more gas that is dissolved in the magma, the more explosive the eruption.
In summary, the three major characteristics of magma that determine the explosivity of a volcanic eruption are temperature, viscosity, and dissolved gases.
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which boundary has the deepest earthquakes? why do you think the earthquakes are deepest here? what do you notice about the depth of the earthquake, the farther you go away from this boundary? why do you think this is so?
This is due to the fact that convergent boundaries have more intense pressure, resulting in greater earthquake depths.
The boundary with the deepest earthquakes is the convergent plate boundary, which is when two tectonic plates move toward each other and one plate slides beneath the other. This movement creates a deep-focus earthquake which can reach depths of up to 700km below the surface of the Earth.
The reason why earthquakes are deepest at convergent plate boundaries is because the intense pressure between the plates creates more friction and causes more intense earthquakes. Additionally, the downward motion of one plate beneath another can create deeper earthquakes due to the increased pressure at greater depths.
When looking at earthquakes at different types of boundaries, it is noticed that the farther away from a convergent boundary, the shallower the earthquakes tend to be. This is due to the fact that convergent boundaries have more intense pressure, resulting in greater earthquake depths.
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is this statement true or false? france is located in both the eastern and western hemispheres. responses true true false
The given statement "France is located in both the eastern and western hemispheres" is True. France is located in both the Eastern and Western Hemispheres. France is located in the Northern Hemisphere, between the latitudes of 42° and 51° North, and longitudes of 5° and 10° East.
France's mainland is divided into three parts. The northernmost part of France is located in the Eastern Hemisphere, while the southernmost part of France is located in the Western Hemisphere. France also includes several overseas territories, some of which are located in both the Eastern and Western Hemispheres.
France is also home to a variety of overseas territories. These include French Guiana, located in South America, and several islands in the Caribbean, Indian, and Pacific Oceans. The overseas territories of Mayotte and Reunion are both located in the Indian Ocean.
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what is foliation? group of answer choices parallel bedding in a rock formed by successive depositional events parallel orientation of platy minerals caused by complete melting parallel orientation of platy minerals caused by metamorphism parallel cracking or jointing of a rock due to stress
Foliation, a result of metamorphism, is the parallel orientation of platy minerals in a rock.
The parallel orientation of flat or platy minerals within a rock is referred to as foliation. The minerals align themselves perpendicular to the direction of the highest stress because to the severe pressure and/or heat that occurs during metamorphism. As a result, the rock develops a characteristic layering or banding pattern. Foliation is distinct from parallel bedding, which is created by several depositional occurrences, and from cracking or jointing, which is brought on by stress but excludes mineral alignment. Metamorphic rocks, such as schist and gneiss, frequently exhibit foliation, which can provide important details about the rock's geological past.
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on a west coast in the northern hemisphere, what happens to surface waters when winds blow from the south?
Surface waters in the northern hemisphere on the west coast will be pushed away from the coast when winds blow from the south.
This phenomenon is known as upwelling and is caused by the Ekman Transport. The Ekman Transport is a surface ocean current that moves at a 90 degree angle from the direction of the wind.
As winds blow from the south, the surface waters are displaced in a northerly direction, causing cold, nutrient rich waters to rise from the ocean depths to the surface.
This upwelling brings a variety of beneficial nutrients to the area, and is essential for the health of coastal ecosystems.
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what type of estuary occurs within the mouth of a river flowing directly into salt water? here fresh water flows out to sea at the surface, and denser seawater flows upstream along the river bottom.
A type of estuary that occurs within the mouth of a river flowing directly into saltwater is a salt wedge estuary. This type of estuary is characterized by freshwater that flows out to the sea at the surface, while denser seawater flows upstream along the river bottom.
A salt wedge estuary is a type of estuary that is primarily influenced by a river's flow, as well as the tidal forces of the ocean. In this type of estuary, seawater, which is denser than freshwater, will enter the river's mouth and flow upstream along the river bottom, creating a wedge-like shape.
The freshwater, which is less dense, will flow over the denser seawater and form a layer on top. The result of this phenomenon is a stratified water column in the river, with saltwater at the bottom and freshwater at the top. This creates a unique habitat for marine and freshwater species alike.
Salt wedge estuaries are commonly found in areas with low tidal ranges, such as the Mississippi River in the United States or the Murray River in Australia.
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5. based on your rankings, which features show the largest differences based on latitude? write a short summary paragraph for the data.
The results of this analysis show that temperature, humidity, cloudiness, and wind speed vary significantly based on latitude.
The data reveals that the southern hemisphere has significantly higher temperatures than the northern hemisphere, with the maximum temperature reaching nearly 90 degrees Fahrenheit at the equator.
Additionally, humidity and cloudiness tend to increase as latitude decreases. Conversely, wind speed tends to be significantly higher in the northern hemisphere than the southern hemisphere.
Overall, the data suggests that latitude has a significant impact on climate conditions around the globe.
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he type of turbulence that develops when wind speed changes rapidly with height is: group of answer choices thermal turbulence adiabatic turbulence political turbulence shear-induced turbulence
The type of turbulence that develops when wind speed changes rapidly with height is known as shear-induced turbulence. Therefore the correct option E.
Turbulence is a disruptive event that can cause high-intensity fluctuation flows in different mediums. It is characterized by irregular, chaotic, and random fluctuations in velocity, pressure, and other fluid properties.
Turbulence is commonly observed in many natural and human-made systems, including oceans, rivers, the atmosphere, and industrial applications such as airplane engines and pipelines.
Shear-induced turbulence develops when there is a change in wind speed with height. This phenomenon occurs when the horizontal velocity gradient causes vertical shear and results in turbulent eddies. Therefore the correct option E.
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The type of turbulence that develops when wind speed changes rapidly with height is: a) thermal turbulence b) political turbulence c) adiabatic turbulence d) mechanical turbulence e) shearinduced turbulence
what is true about the difference between a mineral and a rock?group of answer choicesa mineral is required to be naturally occurring, but a rock is not.a rock is required to be naturally occurring, but a mineral is not.a rock is generally made up of an aggregate of minerals, but this is not a requirement. rocks can also be made up of non-mineral matter.
The correct answer for difference between a mineral and a rock is: a Mineral is required to be naturally occuring, but a Rock is not.
A rock is typically composed of a collection of minerals, but this is not always necessary; and rocks can also be made up of non-mineral materials. Mineral is a naturally occurring inorganic solid, usually having a specific chemical composition and crystalline structure.
There are over 5,000 known mineral species, each with its own unique characteristics, properties, and uses. A mineral's hardness, luster, cleavage, and color are all examples of its distinguishing characteristics. Rock is a naturally occurring substance composed of one or more minerals, mineraloids, or other organic materials.
There are three primary classifications of rocks: igneous, sedimentary, and metamorphic. The composition of rocks is usually described in terms of the minerals they contain, but not all rocks are made up of minerals. Rocks are commonly used in construction, architecture, and sculpture, among other things.
Conclusion in brief, the primary differences between minerals and rocks are that minerals must be naturally occurring, rocks do not have to be; rocks are frequently composed of minerals, but they don't have to be; and rocks can contain non-mineral substances, while minerals cannot.
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at nearly all the stations, the season receives the greater amount of precipitation on average. a. summer b. winter
The answer is "b. winter". In most stations, the winter season receives a greater amount of precipitation on average compared to summer.
At almost all locations, the winter season typically experiences higher precipitation totals. This is because the air becomes colder and less able to hold moisture during the winter when the temperature decreases. As a result, clouds form from the condensation of the air's moisture, bringing forth precipitation. Winter storms also bring a lot of precipitation, including snow, sleet, and freezing rain, to many areas. Although thunderstorms can occasionally occur in the summer, they are typically more confined and localised than storms that occur in the winter. Therefore, across most locations, winter is the time of year that sees the highest precipitation.
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