The short term changes in atmospheric variables such as temperature, wind, precipitation, and barometric pressure over a given area and period of days is an example of weather patterns.
Weather patterns are the result of large scale movement of air masses and their interaction with other meteorological factors. They determine the type of weather, like sunny days or rainy days, that a given area experiences over a period of days.
Weather patterns are formed when areas of high and low pressure interact. Air moves from areas of high pressure to areas of low pressure, creating an airflow pattern. The temperature, wind, precipitation, and barometric pressure all are affected by this airflow pattern.
Changes in these atmospheric variables depend on the strength of the pressure system and its movement. When the pressure system is strong and stationary, there is little change in the weather pattern. However, when the pressure system is weak and moving, the atmospheric variables will be more volatile.
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which area of africa is known for successfully resisting european imperialism?
The area of Africa is known for successfully resisting European imperialism is Southern Africa.
Imperialism is a policy or practice by which a country expands its control or authority over foreign territories or countries. It is typically achieved through military force, economic power, or political influence. Imperialism has been a part of human history for thousands of years, and it has taken many different forms in different regions and at different times.
Southern Africa: The area of Africa that is known for successfully resisting European imperialism is Southern Africa. The resistance was mainly led by the Zulu kingdom, which was located in present-day South Africa. The Zulu kingdom was able to fend off European colonization and control for many years, thanks to its strong military and political organization.
In summary, Southern Africa is the area of Africa that is known for successfully resisting European imperialism. The resistance was led by the Zulu kingdom, which had a strong military and political organization.
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________ are comprised of members from different geographic areas assembled as needed to collaborate on a certain project.a) work groupsb) virtual teamsc) non-core teamsd) task forcese) command groups
Task Forces are comprised of members from different geographic areas assembled as needed to collaborate on a certain project. The answer is (d) task forces.
Task forces are temporary teams that are created to work on a specific project or problem. They are composed of individuals who have different skill sets and come from different geographic areas within an organization. Task forces can be established for a variety of purposes such as developing a new product, improving a process, or resolving a crisis. Once the task is completed, the team is dissolved.
The members of the task force return to their previous roles within the organization. Task forces are often used in organizations to leverage expertise from various parts of the organization and to ensure that critical issues are addressed in a timely and effective manner. They are a useful way to bring together diverse perspectives and talents to achieve a specific objective.
Therefore, the correct answer is (d) task forces.
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if quartz is present in an igneous rock, what composition must it be?group of answer choicesultramaficmaficintermediatefelsic
If quartz is present in an igneous rock, it must be of felsic composition.
Igneous rocks are formed from solidification and cooling of lava or magma. Magma is a molten material beneath the Earth's surface. If it cools and solidifies inside the Earth, it forms plutonic rocks. If it cools and solidifies on the surface, it forms volcanic rocks.Igneous rocks are further divided into four main groups depending on their chemical composition. The four groups are as follows: Ultramafic, Mafic Intermediate and Felsic.
Each group is determined by the proportion of minerals present in the rock. The amount of silica present in the rock is used to determine the groups. Felsic rocks contain the most silica while ultramafic rocks contain the least silica. Mafic rocks have an intermediate silica content while intermediate rocks have a silica content that is between that of felsic and mafic rocks.Quartz is a mineral that is rich in silica. Therefore, if quartz is present in an igneous rock, it must be of felsic composition.
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What are the three ways In which corruption will negatively affect the financial growth of South Africa
Answer:
unemployment, reduction in tax revenue, decline in business operation and ultimately, collapse of the economy
the earth's lowest barometric pressures are associated with hurricanes (typhoons). frontal systems (cold and warm fronts). sea level. cold and dry climates. very cold temperatures.
The Earth's lowest barometric pressures are associated with hurricanes (typhoons).
What are hurricanes (typhoons)?
Hurricanes or typhoons are severe tropical storms characterized by low atmospheric pressure, heavy rain, and strong winds. In the West, hurricanes are called typhoons in the East. Such storms develop in the Atlantic Ocean, Gulf of Mexico, and the Caribbean Sea in the United States.
Typhoons are formed in the Pacific Ocean, especially in Japan and the Philippines.
What is barometric pressure?
Barometric pressure is a measure of air pressure that varies from location to location. The pressure exerted by the weight of the atmosphere on the Earth's surface is known as barometric pressure.
The barometric pressure is measured in units of mercury millimeters (mmHg) or inches of mercury (inHg) in the United States, as well as in millibars (mb) or kilopascals (kPa) in other countries. The Earth's lowest barometric pressures are associated with hurricanes (typhoons).
Hurricanes (typhoons) are storms characterized by low atmospheric pressure, heavy rain, and strong winds. When such a storm passes through an area, it causes the barometric pressure to decrease, resulting in the lowest barometric pressures.
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matching question match each of these major north american earthquakes with its cause/description. alaska, 1964 alaska, 1964 drop zone empty. san francisco, 1906 san francisco, 1906 drop zone empty. new madrid, 1811-1812 new madrid, 1811-1812 drop zone empty. mexico city, 1985
The matching of each of these major north american earthquakes with its cause/description are:
Alaska, 1964: 9.2 magnitude earthquake caused by a strike-slip fault of the Pacific and North American tectonic plates.
San Francisco, 1906: 7.8 magnitude earthquake caused by the San Andreas Fault.
New Madrid, 1811-1812: Series of earthquakes estimated to have had magnitudes of up to 7.5-7.7, caused by movement of the tectonic plates.
Mexico City, 1985: 8.1 magnitude earthquake caused by a subduction zone of the Cocos and North American plates.
Alaska, 1964: The earthquake of 1964 occurred in Alaska with a magnitude of 9.2. The movement of the Pacific plate and North American plate led to this earthquake. The movement of plates created the earth's crust to break, leading to the earthquake. A tsunami was also generated due to the earthquake, which led to severe destruction.
San Francisco, 1906: In San Francisco, the 1906 earthquake occurred due to the movement of the San Andreas fault line. The earthquake's magnitude was 7.8, and it resulted in the loss of over 3000 lives.
New Madrid, 1811-1812: This earthquake occurred along the New Madrid fault line, and it had a magnitude of 7.5-7.7. It occurred due to the movement of the tectonic plates.
Mexico City, 1985: In Mexico City, the earthquake occurred due to the movement of the Cocos plate and North American plate. The earthquake had a magnitude of 8.1, and it caused massive destruction, loss of life, and property damages.
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The probable question may be:
matching question:
match each of these major north american earthquakes with its cause/description.
alaska, 1964 alaska, 1964 drop zone empty. san francisco, 1906 san francisco, 1906 drop zone empty. new madrid, 1811-1812 new madrid, 1811-1812 drop zone empty. mexico city, 1985
causes: 7.8 magnitude earthquake caused by the San Andreas Fault, 8.1 magnitude earthquake caused by a subduction zone of the Cocos and North American plates, Series of earthquakes estimated to have had magnitudes of up to 7.5-7.7, caused by movement of the tectonic plates, 9.2 magnitude earthquake caused by a strike-slip fault of the Pacific and North American tectonic plates.
which kind of seismic wave is responsible for the most shaking (and thus, the most damage to human structures)?
The body waves and surface waves responsible for the most shaking.The seismic wave responsible for the most shaking (and thus, the most damage to human structures) is the surface wave.
What are seismic waves?Seismic waves are waves that are generated by earthquakes and other disturbances in the Earth's surface, such as explosions, volcanic activity, and landslides.
They are made up of various types of waves, each with its own distinctive characteristics. There are two types of seismic waves: body waves and surface waves.
Body waves are seismic waves that travel through the Earth's interior. P-waves and S-waves are two types of body waves. Surface waves, on the other hand, are seismic waves that travel along the Earth's surface.
Rayleigh waves and Love waves are two types of surface waves.
Surface waves are responsible for the most shaking (and thus, the most damage to human structures).
The reason for this is that they travel more slowly than body waves, which allows them to cause more sustained shaking.
They are also more complex than body waves, which can cause them to interact with the Earth's surface in unpredictable ways that can lead to more intense shaking.
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which type of unconformity is usually easiest to spot, since layers of sedimentary rocks are on top of igneous rocks without layers?
The type of unconformity, which is usually easiest to spot, since layers of sedimentary rocks are on top of igneous rocks without layers is called Disconformity.
What is an unconformity?
An unconformity is a contact between two groups of rock formations. An unconformity is a surface of erosion or non-deposition that separates younger from older rocks. A time gap or hiatus exists at the unconformity between the rock layers, indicating that some time has passed between the formation of the first group of rocks and the second group.
There are three types of unconformities: nonconformity, disconformity, and angular unconformity. An unconformity can be caused by tectonic events, sea-level shifts, or erosion, among other things.
A disconformity is an unconformity in which parallel layers of sedimentary rocks are separated by a break in sediment deposition or a layer of erosional material.
In a disconformity, the bedding planes of the strata above and below the unconformity are parallel, indicating a time gap in the sedimentary record.
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temperature, pressure, wind and moisture are measured through the depth of the troposphere by what instrument? group of answer choices rawinsonde doppler radar goes satellite
Temperature, pressure, wind and moisture are measured through the depth of the troposphere using Rawinsonde instrument.
Rawinsonde is an instrument used to measure various meteorological parameters, including wind, temperature, and humidity. Rawinsonde is a balloon-borne instrument that is released into the air, and it sends back data as it rises. The balloon can rise to an altitude of around 100,000 feet before bursting, and the Rawinsonde instrument falls back to Earth. The data from the instrument are used to create a sounding, which is a profile of the atmosphere's temperature, pressure, and humidity as a function of altitude. The troposphere is the region of the atmosphere that is closest to the surface. It extends from the Earth's surface up to about 7-20 kilometers, depending on the latitude. The Rawinsonde instrument is used to measure the various meteorological parameters in the troposphere.
The Rawinsonde instrument consists of a weather balloon that is filled with helium gas. The balloon is released from the surface, and it rises through the atmosphere. As the balloon rises, the Rawinsonde instrument collects data on various meteorological parameters, including wind, temperature, and humidity. The data collected from the instrument are used to create a sounding, which is a profile of the atmosphere's temperature, pressure, and humidity as a function of altitude.
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which of the following is a result of seafloor spreading?
a. Trenches form at transform boundaries.
b. Mid ocean ridges form at convergent boundaries.
c. Mid ocean ridges form at divergent plate boundaries
d. Trenches form at divergent boundaries.
the dominant surface winds from the subtropics to high latitudes are the question 63 options: trade winds. westerlies. geostrophic winds. polar easterlies.
The dominant surface winds from the subtropics to high latitudes are the westerlies.
What are westerlies?The winds that blow from west to east in the middle latitudes are known as westerlies. These are observed mainly between 30 and 60 degrees north and south of the equator. As the earth spins on its axis, the Coriolis effect causes the westerlies to appear as westerly winds.
How do westerlies occur?At around 30 degrees north and south of the equator, rising hot air creates an area of low pressure. Air flows away from these low-pressure areas toward areas of high pressure at around 60 degrees north and south of the equator.
Why are westerlies considered significant?The westerlies have a significant impact on the Earth's climate, and they are an essential element of the global circulation system. They play a crucial role in the movement of weather systems across the globe, including storms, hurricanes, and mid-latitude cyclones.
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item2 1 points item 2 all of the ecosystems on the planet together are called the multiple choice lithosphere. biosphere. hydrosphere. stratosphere. atmosphere.
The biosphere is the term used to describe all of the ecosystems on the planet.
Biosphere includes the lithosphere (the solid crust of the Earth), the hydrosphere (the liquid water on the planet), the atmosphere (the air surrounding the Earth), and the stratosphere (the layer of air just above the atmosphere). All of these components work together to create the biosphere, and together they form a complex network of interactions. For example, water evaporates from the hydrosphere and condenses in the atmosphere, which then falls back to the Earth's surface as rain or snow. In this way, the biosphere is constantly exchanging materials and energy between its different components.
The biosphere is the Earth's living systems, including all living things on the planet, such as plants, animals, and microorganisms. The biosphere is closely related to the other three systems, as living organisms rely on water, air, and nutrients from the Earth's crust. The biosphere is the most complex and diverse of the Earth's systems, with a vast range of organisms that interact with each other in intricate ways. All the ecosystems on the planet together are called the biosphere.
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The term for all the ecosystems on the planet together is the biosphere, which encompasses all living organisms and their physical environments, including land, water, and air.
Explanation:All of the ecosystems on the planet together are referred to as the biosphere. This term includes all living organisms and their physical environments, spanning over land (lithosphere), water (hydrosphere), and air (atmosphere). The other options listed: lithosphere, hydrosphere, stratosphere, and atmosphere are all components of the biosphere, but they individually do not represent all ecosystems on Earth.
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which low-grade metamorphic rock is composed of extremely fine-sized mica and other mineral grains and exhibits well-developed foliation and rock cleavage? hornfels marble quartzite slate
The low-grade metamorphic rock that is composed of extremely fine-sized mica and other mineral grains and exhibits well-developed foliation and rock cleavage is slate.
Slate is a metamorphic rock that originates from shale or mudstone, both of which are sedimentary rocks. Slate is made up of clay minerals like illite, chlorite, and muscovite. When exposed to directed pressure and heat over time, these minerals undergo metamorphism to create a low-grade metamorphic rock.
When it comes to physical qualities, slate is frequently grey in color, fine-grained, and easy to break into flat plates. It exhibits well-developed foliation and rock cleavage. It is frequently used in flooring, roofing, and other architectural applications due to its low porosity and easy splitting.
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About __________ of the current landmass of the Earth is made up of glaciers.
About 10% of the current landmass of the Earth is made up of glaciers.
What are glaciers?A glacier is a huge mass of ice and snow that covers a considerable amount of the Earth's surface, which is made up of compacted layers of snow that have accumulated over many years, frequently centuries or even millennia. Glaciers are found in the world's coldest areas, including Greenland, Antarctica, and Alaska, but they may also be found in other mountain ranges throughout the world. Glaciers are a significant source of fresh water for many communities, as they can store water for extended periods of time. This freshwater source can help to meet the demands of cities and farms for drinking and irrigation, particularly in areas where water is scarce or unavailable.
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Imagine that local government is closing your favorite park because of budget cuts. Outline a plan of how you would use the media to try to stop this action. << Read Less
To try to stop the local government from closing my favorite park, I would develop a plan to use the media effectively.
Here's how I would go about it:
Identify key media outlets: Identify the key media outlets in the local area, such as local newspapers, radio stations, and television stations.
Develop a message: Develop a clear and concise message that explains why the park is important and why it should not be closed. The message should be easy to understand and should appeal to a broad audience.
Reach out to the media: Reach out to the media outlets identified in step one and pitch the story. Be sure to provide a copy of the message, as well as any supporting materials.
Organize a protest: Organize a protest to bring attention to the issue. Use social media platforms to advertise the protest, and encourage supporters to attend.
Stay on message: During interviews with the media, stay on message and focus on the key points. Be prepared to answer questions and provide additional information as needed.
Follow up: Follow up with the media outlets and continue to provide updates and additional information as the situation develops. Keep the public informed and engaged in the issue.
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__________ extend into the water to reduce the energy from waves thereby reducing their power. They cause a break in the longshore current.
Breakwaters extend into the water to reduce the energy from waves thereby reducing their power. They cause a break in the longshore current.
A breakwater may be a natural or man-made structure that is intended to act as a barrier against the action of waves. Breakwaters have various forms and designs, but they are typically made of rock, concrete, or other durable materials that can withstand the forces of waves. Breakwaters can help to control the direction of longshore currents by creating a barrier that redirects the flow of water. They cause a break in the longshore current, which can help to reduce erosion along the shoreline. They can also be used to protect harbors and other marine structures from the damaging effects of waves and currents.
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what happened first during the st. helen's 1980 eruption? group of answer choices collapse of the volcano the explosion
The first event to occur during the eruption of St. Helens in 1980 was the earthquake that triggered the landslide. The correct option is the collapse of the volcano.
What is St. Helens?St. Helens, formally called Mount St. Helens, is an active stratovolcano located in the Cascade Range of the Pacific Northwest in North America. St. Helens is known for its volcanic activity, which has been ongoing for thousands of years, and its infamous eruption on May 18, 1980.
What happened during the eruption of St. Helens in 1980?On May 18, 1980, Mount St. Helens, a dormant volcano in Washington state, erupted. The eruption started with an earthquake that triggered a landslide, which was the first event. The landslide caused the north face of the mountain to collapse, resulting in the formation of a massive debris avalanche, which flowed down the mountain at a speed of up to 150 miles per hour (241 kilometers per hour).
As a result of this landslide, approximately 57 individuals lost their lives. The collapse of the volcano was followed by a massive explosion that sent ash, gas, and rocks into the atmosphere.
The explosion caused an ash cloud that rose up to 80,000 feet (24,384 meters) into the atmosphere, and it could be seen from hundreds of miles away. The explosion destroyed most of the trees, buildings, and roads within a 10-mile (16-kilometer) radius of the volcano, as well as the animals and plants in the area.
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as planet mercury formed, temperatures in this region were around 1400k. thus mercury formed out of...
As the planet Mercury formed, temperatures in this region were around 1400K.
Thus, Mercury formed out of material that had a high melting point. The most abundant elements were metals such as iron (Fe), nickel (Ni), and silicon (Si).
This is because the melting point of these elements is high enough to withstand the high temperature in the region. These elements, particularly iron, dominated the formation of Mercury.
In fact, the planet's density is the second-highest in the solar system, after Earth, which suggests a substantial metallic core.
According to the Giant impact hypothesis, Mercury was formed after a Mars-sized body collided with the early Earth.
The debris from the impact was scattered into space and coalesced into a hot planetesimal which eventually became Mercury.
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which of the following are types of pyroclastic debris? choose one or more: a. lapilli b. lava c. blocks d. ash e. magma f. gas g. lahar
The types of pyroclastic debris include the following: a) lapilli, d) ash, c) blocks, and g) lahars.
What are Types of Pyroclastic Debris?Lapilli are small fragments of volcanic debris with a size range between 2 mm to 64 mm. Ash is fine volcanic debris with a size less than 2 mm. Blocks are large, solid pieces of volcanic material that can be greater than 64 mm.
Lahars are mudflows composed of volcanic material mixed with water. Lava, magma, and gas are not considered pyroclastic debris since they are not ejected explosively during volcanic eruptions but rather flow out of the volcano in a more controlled manner.
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what are the most likely changes to atmospheric temperature and precipitation along the west coast of south america during el nino
During El Nino events, the west coast of South America experiences warmer atmospheric temperatures and reduced precipitation.
El Nino events typically lead to an increase in sea surface temperatures in the central and eastern tropical Pacific Ocean. This warm oceanic anomaly affects the atmospheric circulation and leads to warmer temperatures along the west coast of South America.
El Nino is associated with a shift in rainfall patterns, resulting in decreased precipitation along the west coast of South America. The warm oceanic conditions disrupt the normal atmospheric circulation patterns, leading to a weakening or reversal of the trade winds.
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the largest portion of fresh water today is located in question 43 options: clouds. ice caps and glaciers. groundwater resources. the major rivers and lakes of the world.
The largest portion of fresh water today is located in ice caps and glaciers.
Freshwater is critical to life and human development, and is a finite resource on our planet. Ice caps and glaciers are the largest portion of freshwater on the planet today, accounting for roughly 68.7% of the planet's freshwater resources.
In a nutshell, ice caps and glaciers are the largest freshwater resources on the planet, accounting for about 68.7 percent of the planet's freshwater resources. Freshwater is crucial to life and human progress, and it is a finite resource on our planet. Therefore, it is important to protect and conserve freshwater resources.
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cyclogenesis is common: group of answer choices on the lee side of mountains none of the above on the peak of mountains on the windward side of mountains
Cyclogenesis, or the formation of cyclones, is common on the windward side of mountains.
This is because when moist air is forced to rise over a mountain range, it cools and condenses, leading to the formation of clouds and precipitation. The release of latent heat during the condensation process causes the air to become warmer and less dense, which can lead to the formation of a low-pressure system. As the low-pressure system intensifies, it can lead to the development of a cyclone or storm. In contrast, the lee side of a mountain range is typically characterized by drier and more stable air, which is less conducive to the formation of cyclones.
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the driving force of plate tectonics is group of answer choices sea-floor spreading. geomagnetism. atmospheric circulation. all of the above
The driving forces of plate tectonics include sea-floor spreading, geomagnetism, and atmospheric circulation. All of the above are driving forces of plate tectonics.
Sea-floor spreading is the movement of tectonic plates away from mid-ocean ridges, which is caused by magma pushing up from the Earth's mantle and solidifying. Geomagnetism is the magnetic field created by molten iron in the Earth's core, which contributes to the directional movement of plates. Atmospheric circulation, the flow of air in the atmosphere, affects the formation of large-scale wind and ocean currents that can move the plates.
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During the winter, the amount of snowfall increases on a glacier, which causes accumulation and the glacier to thicken, and because there is not much melting this creates a net gain of ice called a __________ ice budget.
During the winter, the amount of snowfall increases on a glacier, which causes accumulation and the glacier to thicken, and because there is not much melting this creates a net gain of ice called a positive ice budget.
A glacier is a huge mass of ice that moves gradually over the land. Most glaciers are found in polar and sub-polar areas. Glacier ice is unique in that it moves. They are formed when the snow accumulates over the years and converts into ice. When snow accumulates in winter more than melts in summer, the ice sheet gains mass, resulting in a net gain of ice called a positive ice budget. Conversely, when the ice melts in summer more than snow accumulates in winter, the ice sheet loses mass, resulting in a net loss of ice called a negative ice budget.
During winter, the amount of snowfall on a glacier increases, causing accumulation and glacier thickness. In contrast, during the summer, the glacier starts melting, causing ablation and glacier thinning. A glacier's total annual gain or loss in mass due to these processes is referred to as the glacier's mass balance or ice budget.
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A glacier melting looks like it is sliding back up the hill, and in this stage the glacier is __________.
Answer:
The stage in which a glacier appears to be sliding back up the hill and melting is called "retreating."
A glacier melting looks like it is sliding back up the hill, and in this stage, the glacier is retreating.
A glacier is a large sheet of ice that can move slowly down a mountain or across land due to its weight. When snow and ice melt, the volume of the ice decreases and it becomes lighter. As a result, the glacier slides back up the hill or retreats.
A glacier's movement is caused by a combination of internal deformation and basal sliding, with internal deformation being responsible for the majority of the movement. Glaciers can be found all around the world, and they form over the course of many years, as snow and ice accumulate and compact. They are a natural and important feature of the Earth's climate system.
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When a glacier begins to melt due to warmer temperatures, the resulting water flows to the valley below carrying with it sediments, sand, and gravel, scraping it away and depositing it, and that sediment deposited by the glacier is called __________.
Answer:
The sediment deposited by the glacier is called glacial till.
When a glacier begins to melt due to warmer temperatures, the resulting water flows to the valley below carrying with it sediments, sand, and gravel, scraping it away and depositing it, and that sediment deposited by the glacier is called Till.
The sediment deposited by the glacier is known as till. This material is the debris of the glacier that has been transported by the ice and then deposited as it melts. The till deposits are characterized by the variable size of the particles and a lack of sorting by size. Additionally, the material is frequently unstratified and frequently has a random orientation of particles. Till can be found throughout many regions, including areas previously occupied by glaciers and ice sheets.
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what side of the himalayan mountains gets all the rain and why
The southern side of the Himalayan mountains, also known as the windward side, receives most of the rain.
Why it is?
This is because of the orographic effect, which is the process by which moist air is forced to rise up and over a mountain range.
As the moist air rises, it cools and condenses, leading to the formation of clouds and precipitation. On the southern side of the Himalayas, moist air from the Indian Ocean is forced to rise up and over the mountains, resulting in heavy rainfall in regions like Nepal, Bhutan, and northeastern India.
In contrast, the northern side of the Himalayas, which includes regions like Tibet and western China, receives little precipitation due to the dry air that descends on the leeward side of the mountains.
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which type of cloud shows the greatest vertical growthwhich cloud type would be most likely to form in an unstable atmosphere?
The type of cloud that shows the greatest vertical growth and is most likely to form in an unstable atmosphere is a cumulonimbus cloud.
The cumulonimbus cloud is known for producing strong winds, thunder, lightning, and heavy rain or snow.
These clouds are tall and dense and can grow to heights of over 10,000 meters (32,808 feet). They are composed of water droplets and sometimes contain ice crystals, which form due to the rapid condensation and uplifting of air.
An unstable atmosphere is characterized by warm, moist air near the surface and cooler air at higher altitudes, creating conditions that promote upward air currents and vertical development of clouds.
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which two factors cause upwelling? responses prevailing winds and daily tides prevailing winds and daily tides the coriolis effect and changes in salinity the coriolis effect and changes in salinity differences in density and daily tides differences in density and daily tides prevailing winds and the coriolis effect
Prevailing winds and daily tides are the two main factors that cause upwelling.
Prevailing winds are winds that consistently blow from the same direction and can cause the water to be displaced along the shoreline, resulting in upwelling. Daily tides are the periodic rise and fall of the ocean’s surface, which can also lead to upwelling.
The Coriolis effect, which is an inertial force, causes a deflection in the paths of moving objects and is an additional factor that can cause upwelling. Changes in salinity can also influence the density of the water and can cause upwelling.
Lastly, differences in density between two different water masses can also be a factor in upwelling. When the water has different densities, the denser water will sink and the less dense water will rise, resulting in upwelling.
In conclusion, the two main factors that cause upwelling are prevailing winds and daily tides, but other factors such as the Coriolis effect, changes in salinity, and differences in density also play a role.
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Answer: THE ANSWER IS C)
prevailing winds and daily tides
Explanation: I GOT A 100 ON THE QUIZ
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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