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.

Pressure remains lowest in the storm's eye and rises as it moves outwards. The pressure gradient is very steep along the eyewall.

Windspeed remains highest at the eye walls, and slightly higher on the hurricane's moving side of the wall.

Rainfall can be seen on the hospital rain bands and the eyewall. The eye is always warm.

Strom surge was high on the side of the wall where the hurricane-force wind was blowing.

During the winter months of the Northern Hemisphere, the Arctic is one of the coldest and darkest places on Earth.

Following the September equinox, the Earth's tilted axis and revolution around the sun reduce the amount of light and heat reaching the Arctic until no sunlight reaches the region.

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Answer:

Taiwan

Explanation:

All of the others have money and resources!

Hope this helps!

It lacks resources Taiwan!

Answer: The theory of plate tectonics has a mechanism for explaining how the continents move, while Wegener's hypothesis of continental drift did not.

Explanation: In the early 20th century, Alfred Wegener proposed the hypothesis of continental drift, which suggested that the continents were once joined together in a single landmass called Pangaea, and had slowly drifted apart over millions of years. However, Wegener did not have a mechanism to explain how the continents moved.

In the 1960s, the theory of plate tectonics was developed, and it provided a mechanism for understanding how the continents move. The theory of plate tectonics suggests that the Earth's lithosphere (which includes the crust and the uppermost part of the mantle) is divided into a series of plates that move relative to each other. The motions of the plates are driven by convection currents in the mantle.

At the boundaries where the plates meet, different phenomena occur. At divergent boundaries (such as the Mid-Atlantic Ridge), new crust is formed as magma rises to the surface and hardens, pushing the plates apart. At convergent boundaries (such as the Andes Mountains), plates collide and one is forced under the other (in a process called subduction). At transform boundaries (such as the San Andreas Fault), plates slide past each other.

The theory of plate tectonics thus provides a mechanism for explaining how the continents move over time. As new crust is formed at divergent boundaries and old crust is destroyed at subduction zones, the plates move apart and the continents drift. This explains why the continents are moving today and have been moving over geological time scales, and how they have been in different positions in the past.

Overall, while Wegener's hypothesis of continental drift was a significant step in understanding the evolution of the Earth's continents, it was the theory of plate tectonics that provided the more complete and explanatory picture, by proposing a mechanism for how the continents move.

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Answer: You've seen lines running across maps your whole life and may not have noticed them. The lines running North to South are called "Meridians" or "lines of longitude" (Figure 2), while the lines running East to West are called "Parallels" or "lines of latitude" (Figure 3).

Explanation:

Answer:

the lack of strict environmental regulations

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The average temperature during the peak of the interglacial period has been about 5-6 degrees Celsius higher than the average temperature during the last glacial maximum.

An interglacial is a geological epoch during which Earth's climate was warmer than it is today, typically lasting thousands of years. Interglacials are usually characterized by high temperatures, which lead to the melting of ice caps and rising sea levels.

During the last glacial maximum, which lasted from about 26,000 to 19,000 years ago, Earth's temperature was about 5-6 degrees Celsius lower than it is today. This means that during the peak of the interglacial period, the average temperature was about 5-6 degrees Celsius higher than the temperature during the last glacial maximum.

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The circum-Pacific area has the greatest concentration of currently active volcanoes.

This area, often referred to as the "Ring of Fire," stretches along the Pacific Ocean, including parts of North and South America, Asia, and the islands of the Pacific. The region with the greatest concentration of currently active volcanoes is the circum-Pacific area, also known as the Pacific Ring of Fire. This area stretches from the western coast of North andthrough Alaska and Russia, and down to the western and southern coasts of Asia, including Japan, the Philippines, and In South America, donesia. The Pacific Ring of Fire is known for its high level of volcanic and seismic activity, and is home to over 75% of the world's active and dormant volcanoes.

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An area that drains to a common waterway is called a watershed. The correct option is option C.

A watershed is a location in which rain, snow, and other precipitation fall and drain into a common waterway, such as a river, lake, or ocean. The waterway, which transports water to the location, is the end of the watershed. A watershed, also known as a drainage basin, refers to the area of land that drains into a particular river system or other waterbody.

It may be a small, concentrated drainage basin, such as a small lake or wetland, or a large region with many rivers and tributaries. All water that falls inside the watershed's boundaries eventually makes its way to the river or other body of water.

Urban runoff is the discharge of precipitation and other pollutants from developed regions such as towns and cities. Urban runoff carries contaminants from roads, buildings, and other impervious surfaces, resulting in higher levels of pollution in the water.

As a result, it has the potential to cause significant ecological damage and has been linked to a variety of public health concerns.

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During the overnight hours on a mountainside, when temperatures are dropping, the wind usually responds by blowing downslope.

An inversion is formed during the night when temperatures drop, causing the cold air to flow down the mountain. This is known as a katabatic wind.

The wind usually responds by blowing downslope, which is referred to as the katabatic wind. The mountain valley can get very cold during these windy nights, which is why katabatic winds are common in mountainous regions.

Mountainous areas experience katabatic winds, which are downslope winds caused by the cooling of a mass of air on high terrain. Katabatic winds occur when dense, cold air flows downhill because it is denser than the surrounding warmer air.

The phenomenon can last for a few minutes or a few hours, depending on how long the cold air takes to warm up.

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The fundamental property of Mars that explains why it once had a global magnetic field but later lost it is its small size. Therefore the correct option is option A.

Mars lost its magnetic field and its atmosphere over time because its core cooled and solidified, according to NASA. The Mars crust, which is not divided into tectonic plates like the Earth's, is an average of 50 kilometers thicker than the Earth's crust.

The processes responsible for creating the Earth's magnetic field are not present on Mars, according to scientists. As a result, Mars is unable to generate the long-lasting magnetic field that shields its atmosphere from the solar wind.

Mars once had a global magnetic field, but it has since lost it due to the planet's small size, which means that its core cooled more quickly than the Earth's.

As a result, Mars has a partially cooled core that no longer produces a magnetic field, making it more vulnerable to the harsh space environment. The statement "its small size" is the correct answer.

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The following question may be like this:

which of the following fundamental properties of mars could explain why it once had a global magnetic field but later lost it? group of answer choices

its small size

its larger distance than earth from the sun

a rotation rate that is slightly slower than earth's its axial tilt

Answer: The correct option is WESTERLIES.

the country's best farmland

The factor that has a definite pattern of variation with respect to latitude is Temperature

Latitude is the distance of a location on the earth's surface from the equator. The geographic coordinate that determines the distance between the Earth's center and a point on its surface is known as latitude. The equator is the earth's equator. The distance of a location from the equator is measured in degrees of latitude. This the Temperature's variation with respect to latitude.

Latitudinal variation in temperature is due to the way sunlight is absorbed and distributed across the earth's surface. The higher latitudes receive less energy from the sun than the lower latitudes, which receive more energy per unit area due to the angle of the sun's rays. However, the amount of energy received by a specific region is affected by other variables, including the time of day, the season, and the presence or absence of cloud cover or water.

As a result, latitudinal temperature variations are complicated and can be affected by a variety of variables.

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Answer:

(B.) There is a 2  percent chance of a direct hit by a hurricane

.Explanation:

the red is incorrect

Travertine can form in a variety of geologic settings, including in caves,  near hot springs, and  in fast-moving rivers. Therefore the correct option is option A, B and C.

In caves, travertine forms as a result of carbon dioxide in the air dissolving in water. This results in an increase in the acidity of the water, which in turn dissolves the rock the cave is made of and deposits the resulting sediment in the form of travertine.
Near hot springs, the water is saturated with dissolved minerals such as calcium carbonate, which can also be deposited in the form of travertine.
In fast-moving rivers, the increased turbulence can cause the suspended sediment in the water to become trapped and deposited in the form of travertine.
Travertine can also form in glacial lakes, but not in swamps.

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The tectonic boundary between the South American Plate and the Nazca Plate is a convergent boundary. At this boundary, the Nazca Plate is subducted beneath the South American Plate, resulting in the formation of a subduction zone.

As a result, various landforms are produced, including volcanoes, mountains, and oceanic trenches .In South America, one of the most prominent landforms produced by this tectonic boundary is the Andes Mountains.

These mountains stretch along the western edge of South America and are the longest mountain range in the world. They are formed by the collision of the South American Plate and the Nazca Plate.

Additionally, the Nazca Plate is being subducted beneath the South American Plate, resulting in the formation of the Peru-Chile Trench, which is the deepest oceanic trench in the world.

This trench is located off the coast of South America and is over 3,700 miles long. Other landforms produced by this tectonic boundary include volcanoes, such as Cotopaxi in Ecuador and Villarrica in Chile.

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Contact metamorphic rocks form halos surrounding hot intrusive igneous rocks. The statement is True.

What are contact metamorphic rocks?

Metamorphic rocks are the result of the transformation of pre-existing rocks caused by heat, pressure, or a mixture of the two. The metamorphism of rocks caused by contact with an igneous intrusion is referred to as contact metamorphism, and the rocks created as a result of this process are known as contact metamorphic rocks.

What are igneous rocks?

Igneous rocks are rocks that are formed from molten magma. When this molten magma cools and solidifies, it becomes an igneous rock.

Where do contact metamorphic rocks form?

Contact metamorphic rocks are formed in areas where magma comes into contact with existing rock formations, such as the heat from a volcanic eruption.

As a result of the contact between the hot magma and the surrounding rock, metamorphism occurs in the affected area. The metamorphic changes that occur in these regions are primarily caused by the heat that is generated by the magma intrusion. These changes result in the formation of contact metamorphic rocks that surround the intrusive rock.

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Answer:

When water moves around a bend in the river it moves very fast on the outer edge, picking up sediments.

When water moves around a bend in the river it moves very fast on the outside edge, picking up sediments.

A meander bend, also known as a horse-bends, is a large bend in a river. Meandering rivers are divided into two categories: constant and sinuous. Meanders in constant meandering rivers are tighter and smoother than those in sinuous meandering rivers.

When water moves around a bend in the river it moves very fast on the outer edge, picking up sediments. The river's sediment transport is a crucial aspect of river dynamics. The amount of sediment transported by rivers is influenced by a variety of factors. The energy and speed of the water is the most essential aspect. The amount of sediment the water is carrying is also important. Suspended sediment is frequently transported in the river flow. Sediment is swept downstream and can accumulate where the water slows down or is obstructed in areas where the flow is disrupted. Such regions are often good areas for deposition.

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Answer:

Often, landowners along eroding beaches will build groins, which are walls or dams sticking out into the ocean or lake from the beach. Why are these built, and what happens?

If you sample the water and it has a salinity of 35 ppt, you would be in the ocean (or at least somewhere with seawater).

Salinity refers to the amount of salt dissolved in seawater, measured in parts per thousand (ppt). Salinity levels in the ocean can vary depending on the location, season, and other factors. Generally, the ocean has an average salinity of 35 ppt, although this can vary between 30 to 40 ppt in different regions. Therefore, if you sample water with a salinity of 35 ppt, it means that you are most likely in the ocean or a saltwater body with similar salinity levels.

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Further west from the deep U.S. trough, Eastern Alaska, as well as Yukon and British Columbia, Canada, were being impacted by a ridge.

A ridge of high pressure is impacting Eastern Alaska, Yukon and British Columbia in Canada, further west from the deep U.S. trough. A ridge of high pressure is an area of high atmospheric pressure, which is associated with fair weather, light winds and generally pleasant conditions. This ridge is formed when two air masses move away from each other, causing the air pressure in the area to increase. A ridge is typically indicated on a weather map by a line of red L's. The L's are placed on the map in the direction of the wind flow around the ridge, with the point of the L representing the area of highest atmospheric pressure.

The increased atmospheric pressure caused by the ridge produces lighter winds and warmer temperatures. The warmer temperatures and decreased wind speeds generally lead to more stable weather conditions and less precipitation. The ridge can also bring dry and sunny conditions, as well as a decrease in storm activity. These effects can be felt further downwind of the ridge, making it a welcomed feature in many areas.

In contrast, a trough is typically associated with low-pressure areas that produce wet, stormy weather conditions, as well as cool temperatures. This is because the low-pressure system promotes the formation of clouds and precipitation, which can reduce the amount of solar radiation that reaches the Earth's surface.

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Water velocity in a stream varies based on many factors but is usually greater at the mouth than the head. The part of a stream commonly having the highest gradient is head.

Stream is defined as a body of water, running or moving continuously in a channel or course of considerable width and length. There are a number of different types of streams, each characterized by its size, location, and water velocity.

Some of the important factors that affect water velocity in a stream include the slope of the land, the amount of water in the stream, the shape of the streambed, and the type of sediment in the streambed.

Water velocity is the speed of water in a stream or river. It is the distance the water travels over a particular period of time. Water velocity in a stream is influenced by many factors such as the streambed, the shape of the channel, the amount of water in the stream, and the slope of the land, among others.

Gradient refers to the steepness or slope of a stream channel. The highest gradient in a stream is found at the head. The head is the point where the stream begins or the location where the stream gets its water. As the stream flows downstream, the gradient decreases, and the water velocity decreases.

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Volcanic outcrops are classified into two types: intrusive and extrusive. Intrusive outcrops form when molten magma cools slowly beneath the surface of the earth, forming large, distinct crystals. Extrusive outcrops form when molten magma quickly cools upon the earth

Intrusive outcrops are typically made up of igneous rocks such as granite, gabbro, or diorite, and the cooling process allows for the formation of larger crystals.

These larger crystals allow for more intricate and interesting rock formations, and the larger size of the crystals makes them easily visible to the human eye. Extrusive outcrops are typically made up of igneous rocks such as basalt or andesite, and the quick cooling process results in smaller crystals.

Intrusive and extrusive outcrops differ in the way they form and the size of the crystals that make up the rocks. Intrusive outcrops form slowly, creating large, visible crystals, while extrusive outcrops form quickly, creating small, invisible crystals.

Both types of outcrops can be found in many geological settings, and each type has its own unique features that can be explored and studied.

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When a cold cp air mass passes over the warmer Great Lakes, it absorbs heat energy and moisture and becomes humidified. This is known as the lake effect. Therefore the correct option is option D.

The lake effect refers to the weather phenomenon that occurs when cold, dry air passes over a relatively warm body of water, such as a lake or sea.

The air absorbs moisture and heat energy from the water and becomes more humid, warmer, and less dense as a result.

The moist, warm air rises above the surface of the lake, forming clouds and eventually precipitation. This process results in heavy snowfalls, blizzards, and lake-effect rain in the winter and fall months. Hence, the correct option is D, "lake effect." Therefore the correct option is option D.

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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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The term "metamorphic grade" refers to the intensity of metamorphism.

The relative temperature and pressure conditions under which metamorphic rocks occur are referred to as the "metamorphic grade" in general. It is referred to as prograde metamorphism or as the grade of metamorphism increasing as temperature and/or pressure are increased on a body of rock. Low pressure and temperatures, ranging from 200 to 320°C, are ideal for low-grade metamorphism. An abundance of hydrous minerals is a characteristic of low grade metamorphic rocks.

When the temperature exceeds 320°C and the pressure is high, high-grade metamorphism occurs. Hydrous minerals lose water during metamorphism, becoming less hydrous, while non-hydrous minerals are increasingly prevalent.

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The oldest oceanic crust is found in the central Pacific Ocean and the youngest oceanic crust is found along the Mid-Atlantic Ridge. The oldest oceanic crust is about 180 million years old and the youngest oceanic crust is about 3 million years old.

The distribution of magnetic anomalies helps geologists identify the age of the oceanic crust. Magnetic anomalies are created when new oceanic crust is formed due to volcanic activity and tectonic plate movement. The magnetism of the oceanic crust is usually aligned with the Earth's magnetic field when it is first formed. As the Earth's magnetic field reverses, the magnetism of the oceanic crust is "frozen in time" and helps scientists measure the age of the crust.

The oldest oceanic crust is found in the central Pacific Ocean because it has been around the longest and hasn't moved much due to tectonic plate movement. The youngest oceanic crust is found along the Mid-Atlantic Ridge because this is where new oceanic crust is constantly being formed due to tectonic plate movement and volcanic activity.

By studying the distribution of magnetic anomalies, scientists can accurately measure the age of the oceanic crust and identify where the oldest and youngest crust can be found.

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Based on the chart, the region of the world in individual regions that is the least likely to have access to any basic or limited handwashing facility is Sub-Saharan Africa

Geographically speaking, Sub-Saharan Africa refers to the parts of the African continent south of the Sahara. Central Africa, East Africa, Southern Africa, and West Africa are among them.

Based on the chart, it can be seen that there are different regions that have poor access to healthcare and other important social and health variables, but Sub-Saharan Africa has the LEAST chance of having access to these.

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The snowpack of the Rocky Mountains is important to the Midwest United States because it is a major source of freshwater for the region. The snowpack gradually melts in the spring and summer, releasing water into the rivers that supply the Midwest.

The water from the Rockies helps irrigate and supply drinking water to parts of the Midwest. Without this important source of freshwater, much of the Midwest could be in danger of drought or water shortages.

Overall, the snowpack of the Rocky Mountains is a critical part of the Midwest's water cycle and helps ensure that the region is adequately supplied with the necessary water resources.

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If you lived in an area identified as class III for land capability, the following are some of the things you might need to take into consideration regarding the soil:  Crop selection and rotation,  Soil improvement methods, Soil erosion, Soil testing.

Soil is considered a fundamental natural resource, which implies that it is critical to human beings' livelihoods. Soil that is classified as class III for land capability is considered unsuitable for farming or development since it has several limitations, such as shallow depth, low fertility, and low water storage capacity.Among the things to consider when dealing with such soil are:

1. Crop selection and rotation: Soil that is classified as class III for land capability is typically not suitable for growing most crops. This indicates that if you want to farm in this region, you must first select suitable crops and rotate them regularly. This is important because it aids in the soil's fertility restoration.

2. Soil improvement methods: You can utilize a variety of soil improvement techniques to improve the soil's fertility and water retention. These techniques can include the use of organic fertilizers, such as animal manure, or inorganic fertilizers that are rich in macronutrients such as nitrogen, phosphorus, and potassium. Other techniques include crop rotation, green manure, intercropping, cover cropping, and agroforestry.

3. Soil erosion: Soil that is classified as class III for land capability is generally vulnerable to soil erosion, which is caused by wind and water. To reduce soil erosion, you might consider utilizing several soil conservation techniques such as contour farming, terrace farming, and conservation tillage.

4. Soil testing: Soil testing is an essential component of soil management in any area, and class III soil is no exception. Soil testing is important for determining soil acidity or alkalinity, nutrient composition, and other factors that influence soil health. The findings of soil testing might then be utilized to inform soil management techniques, such as fertilizer application or soil pH adjustment.

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