Option (c), The outback portion of Australia's country has a particularly arid environment.
What would you say about Australia's outback?The terms "Outback" and "the bush" are used to describe any region of Australia that is removed from the country's denser population centers. As such, it is "out back" of Australia's larger coastal cities. The Outback is best described as a dry or semi-dry, open area that is typically undeveloped.
What is the Outback of Australia's fact?Australia's vast and diverse Outback, which covers the bulk of the nation, is considered to include anything that is not located in densely populated coastal areas. In addition to the largest temperate woodlands in the world and a subtropical savanna, it is made up of ten deserts.
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the development of a mid-latitude cyclone is called the development of a mid-latitude cyclone is called cyclogenesis. frontolysis. frontogenesis. mid-latitude bombs.
The development of a mid-latitude cyclone is called cyclogenesis.
Cyclogenesis is the process by which a low-pressure system or cyclone forms and intensifies in the atmosphere. It typically occurs when there is a large contrast in temperature and moisture between two adjacent air masses.
As the warm and moist air rises, it cools and condenses, leading to the formation of clouds and precipitation.
As the low-pressure system intensifies, it can lead to stronger winds and more intense precipitation.
Cyclogenesis is an important process in the development of weather systems, as it can lead to significant changes in weather patterns and affect the conditions in a given region for several days.
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if you want to melt a rock, even partially, there are three methods you can employ. which of the following is not a way that melting is triggered in rocks in the earth? radio button unchecked adding water radio button unchecked adding heat radio button unchecked removing water radio button unchecked releasing pressure submit
The answer is "removing water."Adding water is not a way that melting is triggered in rocks in the Earth.
The other three methods mentioned - adding heat, removing water, and releasing pressure - are all known to cause melting in rocks.
Adding heat and releasing pressure are two ways that rocks can be melted in the earth. Adding water is not typically a way that rocks are melted, although it may be a factor in some cases, such as with volcanic activity.
However, removing water is not a way that rocks are melted. In fact, removing water can actually make it more difficult for rocks to melt, as water can act as a catalyst for melting in some cases. So, the correct answer to this question is "removing water."
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which volcanoes and eruption types emit volcanic gasses like steam, carbon dioxide and sulfur dioxide?
During eruptions, most volcanoes release volcanic gases such as steam, carbon dioxide, and sulfur dioxide. Some volcanoes, however, are known to release more of these gases than others.
Shield volcanoes, for example, which are characterized by low-viscosity magma and effusive eruptions, tend to emit significant amounts of steam and smaller amounts of carbon dioxide and sulfur dioxide. Kilauea and Mauna Loa in Hawaii are two examples of shield volcanoes that release these gases.
Stratovolcanoes, on the other hand, emit significant amounts of steam, carbon dioxide, and sulfur dioxide due to their high-viscous magma and explosive eruptions. Mount St. Helens in the United States, Mount Pinatubo in the Philippines, and Mount Fuji in Japan are examples of stratovolcanoes that release these gases.
Volcanic gases can have serious consequences for the environment and human health. For example, sulfur dioxide can react with water vapor and other gases in the atmosphere to create sulfate aerosols, which can obstruct sunlight and cool the Earth's surface. The greenhouse gas carbon dioxide adds to global warming.
As a result, studying and tracking volcanic gases is critical to understanding the Earth's climate and the potential effects of volcanic activity on human populations.
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Volcanoes and eruption types that emit volcanic gases like steam, carbon dioxide, and sulfur dioxide are stratovolcanoes and shield volcanoes. Stratovolcanoes and shield volcanoes are the two types of volcanoes that emit volcanic gases such as steam, carbon dioxide, and sulfur dioxide.
These two types of volcanoes are responsible for most of the eruptions that take place on Earth. Stratovolcanoes are cone-shaped volcanoes formed by layers of ash and lava. They have steep slopes and are located near subduction zones. Their eruption types include explosive eruptions that release gases like sulfur dioxide, carbon dioxide, and steam into the atmosphere.
The explosive eruptions are caused by the buildup of gases and pressure in the volcano's magma chamber. When the pressure gets too high, the gases and ash are released, causing an explosive eruption. Shield volcanoes, on the other hand, are broad and flat with gentle slopes.
They are formed by the flow of lava and have gentle eruption types that are less explosive than those of stratovolcanoes. However, they still emit volcanic gases such as steam, carbon dioxide, and sulfur dioxide during eruptions. The gases are released when magma rises to the surface and erupts. The lava flows out of the volcano in a steady stream rather than explosively, so the gases are released slowly into the atmosphere.
In conclusion, stratovolcanoes and shield volcanoes are the two types of volcanoes that emit volcanic gases such as steam, carbon dioxide, and sulfur dioxide. These gases are released during explosive eruptions in stratovolcanoes and during the slow flow of lava in shield volcanoes.
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Part C
When air cools below its dew point temperature, the drops of water in the air condense, forming dew. Dew point temperature varies according to air pressure and humidity. When the air temperature is close to its dew point, there’s more moisture in the air, and the chances of rain and thunderstorms increase. On a map, isodrosotherms connect points of equal dew point temperature and indicate surface moisture.
Question
This map shows the dew point temperatures across the United States. The units are measured in degrees Fahrenheit. Follow the steps to complete the drawing.
Step 1: Isodrosotherms. Locate points of equal dew point temperature on the map. Use a green pen to connect these points by drawing smooth isodrosotherms. Make sure the isodrosotherms don’t cross each other. You may have to estimate some of the values. Label the isodrosotherms at the end of the line.
Step 2: Storms. Isodrosotherms indicate surface moisture. Typically, dew points greater than 70°F have the energy needed to produce severe weather. Shade the regions where dew point temperatures are 70°F or greater in green.
Answer:
Step 1: Isodrosotherms
To locate points of equal dew point temperature on the map, look for areas with similar numbers. You can draw smooth lines connecting these areas using a green pen to create the isodrosotherms. Make sure the lines don't cross each other. To label the isodrosotherms, write the dew point temperature at the end of the line.
Step 2: Storms
To shade the regions where dew point temperatures are 70°F or greater in green, follow these steps:
Look for areas on the map where the dew point temperature is 70°F or greater.
Use a green pen or highlighter to shade in these regions on the map.
Be sure to shade in all the areas where the dew point temperature is 70°F or greater, including any isolated areas that may be separate from the main shaded region.
Remember that dew point temperatures greater than 70°F indicate the potential for severe weather, so it's important to be thorough in shading these regions on the map.
Hope This Helps!
Answer:
Step 1: Isodrosotherms
To locate points with equal dew point temperature on the map, search for areas with similar numbers. Draw smooth lines using a green pen to connect these areas, creating the isodrosotherms, ensuring the lines do not cross each other. At the end of each line, write the dew point temperature to label the isodrosotherms.
Step 2: Storms
To indicate the regions where dew point temperatures are 70°F or greater in green, follow these steps:
Identify the areas on the map with dew point temperature equal to or greater than 70°F.
Use a green pen or highlighter to shade these regions on the map.
Remember to shade all areas with dew point temperatures greater than or equal to 70°F, including any isolated areas that may be separate from the main shaded region.
It is important to be thorough in shading these regions since dew point temperatures greater than 70°F indicate the potential for severe weather.
which of the following factors help determine whether a volcanic eruption will be violent or relatively quiescent? radio button unchecked amount of dissolved gases in the lava radio button unchecked all of these factors radio button unchecked temperature radio button unchecked composition of the lava submit
All of these factors help determine whether a volcanic eruption will be violent or relatively quiescent. The amount of dissolved gases in the lava, temperature, and composition of the lava all play crucial roles in the eruptive behavior of a volcano.
The amount of dissolved gases in the lava, such as water vapor and carbon dioxide, affects the explosiveness of the eruption. Higher amounts of dissolved gases lead to a more violent eruption, as the gases expand and cause the magma to break apart forcefully when it reaches the surface.
Temperature also plays a significant role in the eruption style. Hotter, more fluid lava flows more easily and tends to produce gentler eruptions, as it can release its gas content more efficiently. In contrast, cooler and more viscous lava is less efficient at releasing gas, resulting in a buildup of pressure that can cause violent eruptions.
The composition of the lava is another essential factor. Basaltic lava, which is relatively low in silica content, tends to be more fluid and produces less violent eruptions. On the other hand, lava with higher silica content, such as andesitic or rhyolitic lava, is more viscous and can trap gases, leading to more explosive eruptions.
In summary, the amount of dissolved gases in the lava, temperature, and composition of the lava are all critical factors that determine whether a volcanic eruption will be violent or relatively quiescent.
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What does Neuwirth argue that the people in these communities need?
According to Neuwirth, residents residing in unofficial settlements require housing security, access to essential services, and recognition as citizens with the same rights as those who reside in established housing zones.
What is the Equal Rights Amendment's central tenet?The Equal Rights Amendment (ERA) was first put out in Congress in 1923, three years after the 19th amendment was ratified, in an effort to guarantee complete equality for women. It aims to eliminate the disparities in the law that exist between men and women with regard to divorce, property, employment, and other issues.
What does it mean to have equal rights?When everyone has the same rights under the law, there is equality. equal legal justice (civil rights organization) When such rights are upheld, human rights held in common by all people. Civil rights, when such rights are held in common by all citizens of a nation.
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to decrease air pollution created from sulfur emissions, your local power plant wishes to build taller smokestacks. this would most likely cause
The ultimate consequence of this would most likely be D) to create an environmental problem at a distance from the power plant.
Building taller smokestacks at the local power plant can help reduce the concentration of sulfur emissions near the ground, thus decreasing the immediate air pollution in the surrounding area. However, this does not necessarily mean that the overall environmental impact of the emissions is reduced. Instead, the taller smokestacks can disperse the pollutants over a larger area, which may result in environmental problems at a greater distance from the power plant.
The reason behind this is that the taller smokestacks allow the sulfur emissions to be released higher up in the atmosphere. While this may dilute the concentration of pollutants near the power plant, it also allows the emissions to travel further and affect a larger area. This can lead to various environmental issues such as acid rain, which occurs when sulfur dioxide reacts with water vapor in the atmosphere to form sulfuric acid. Acid rain can harm vegetation, aquatic ecosystems, and even human health.
In conclusion, building taller smokestacks to decrease air pollution from sulfur emissions may have the unintended consequence of creating environmental problems at a distance from the power plant. It is essential to explore alternative methods of reducing sulfur emissions, such as implementing cleaner technologies or shifting towards more sustainable energy sources, in order to minimize the environmental impact of power plants. Therefore, the correct option is D).
The question was incomplete, Find the full content below:
To decrease air pollution created from sulfur emissions, your local power plant wishes to build taller smokestacks. The ultimate consequence of this would most likely be
A) the reaction of the sulfur with ozone, resulting in a breakdown of the ozone.
B) biological magnification.
C) to dilute the sulfur pollutants in the atmosphere and thus reduce their effects on the environment.
D) to create an environmental problem at a distance from the power plant.
E) a decrease in the pH of local lakes.
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you see a large, somewhat circular shield of clouds on satellite imagery covering several states in the central united states in the summer. it resembles an inland hurricane. what are you most likely looking at?
The large, circular shield of clouds covering several states in the central United States in the summer that resembles an inland hurricane is most likely a mesoscale convective system (MCS).
MCS is a complex of thunderstorms that organize on a scale larger than individual thunderstorms but smaller than extratropical cyclones, typically forming in the summer months in the central and eastern United States.
They can produce heavy rainfall, strong winds, and occasionally hail and tornadoes. The appearance of an MCS on satellite imagery can resemble that of a hurricane, but the processes driving the system are different.
They can also produce a type of circular feature known as a "bow echo," which resembles the curved shape of a bow or crescent moon. These features are often associated with high winds and can produce wind damage similar to that of a tornado.
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please help with these 3 Canadian geography questions!
The topic is to answer if the event that happened happened for the better or the worse and why.
For the better or worse?
1) Glaciers melting and depositing sediment (weathered and eroded) in the Great Lakes Saint Lawrence Lowlands
For the better or worse?
Heavy glacial erosion in the Canadian Shield that pushed surface materials south, leaving only a surface of bedrock.
For the better or worse?
Heavy rainfalls on Vancouver Island wash soil nutrients deep into the soil away from plant roots.
The melting of glaciers and deposition of sediment in the Great Lakes Saint Lawrence Lowlands was for the better, heavy glacial erosion leaving only bedrock in the Canadian Shield was for the worse, and heavy rainfalls washing soil nutrients away from plant roots on Vancouver Island was also for the worse but outweighed by the benefits it provides to the island's ecosystems and economy.
Which of the event was beneficial or detrimental to the environment?1. Glaciers melting and depositing sediment (weathered and eroded) in the Great Lakes Saint Lawrence Lowlands
This event happened for the better. The melting of glaciers and the subsequent deposition of sediment has played a vital role in shaping the land and creating the unique topography of the Great Lakes Saint Lawrence Lowlands. The sediment deposited by glaciers has created fertile soil that supports agriculture in the region, making it one of the most productive areas in Canada. The Great Lakes also provide important transportation routes and serve as a major source of freshwater for the region.
2. Heavy glacial erosion in the Canadian Shield that pushed surface materials south, leaving only a surface of bedrock.
This event happened for the worse. The heavy glacial erosion in the Canadian Shield has resulted in a surface that is predominantly bedrock, which has made it difficult for plant life to take root and flourish. The lack of soil also limits the area's agricultural potential, and the harsh terrain makes it challenging for human settlement. However, the exposed bedrock has provided important opportunities for mining and other resource extraction activities in the region.
3. Heavy rainfalls on Vancouver Island wash soil nutrients deep into the soil away from plant roots.
This event happened for the worse. While rainfall is essential for plant growth, heavy rainfalls can have a detrimental effect on the soil by washing away essential nutrients. The loss of nutrients can negatively impact the growth and productivity of plants in the region. However, the rain also contributes to the island's lush vegetation and supports the growth of the region's forestry and agricultural industries. Overall, the negative impact of the heavy rainfall on soil nutrients is outweighed by the benefits it provides to the island's ecosystems and economy.
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when each rock layer is deposited on top of the one below it without any interruptions and without depositional gaps, the strata are called .
Answer:
When each rock layer is deposited on top of the one below it without any interruptions and without depositional gaps, the strata are called conformable layers or conformable strata. This indicates a continuous sequence of sediment deposition over time, without any significant events interrupting the process. In contrast, unconformities represent gaps in the geologic record where there has been erosion, non-deposition, or deformation between rock layers.
When each rock layer is deposited on top of the one below it without any interruptions and without depositional gaps, the strata are called "consecutive strata" or "continuous strata."
When each rock layer is deposited on top of the one below it without any interruptions and without depositional gaps, the strata are called conformable layers. What are conformable layers? Conformable layers are rock layers deposited one on top of the other without any evidence of a significant time gap in between. They are also referred to as conformable strata, which means that the layers conform to one another due to a consistent depositional environment and lack of erosion, which creates a uniformity in rock type, thickness, and age throughout the entire succession.
Conformable layers are the result of uninterrupted sedimentation during deposition. When sedimentation occurs with no significant pause, the layers stack on top of one another, producing conformable layers. When the process of sedimentation is interrupted, either by erosion or non-deposition, it results in a gap in the sedimentary record, forming unconformities.
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although global greenhouse gas emissions have continued to rise, u.s. emissions decreased by 13 percent between 1991 and 2014. what is one reason for this?
Answer:
One reason for the decrease in U.S. emissions between 1991 and 2014 is the shift towards cleaner energy sources such as natural gas and renewables, as well as increased energy efficiency measures.
One reason for the decrease in US greenhouse gas emissions between 1991 and 2014 is the implementation of new policies aimed at reducing emissions. The United States has implemented several policies aimed at reducing emissions, including the Clean Air Act, which was amended in 1990.
Additionally, there have been state-level policies, such as renewable portfolio standards, which have required utilities to generate a certain percentage of their electricity from renewable sources. These policies have helped to spur investment in renewable energy and have helped to reduce emissions.
Another reason for the decrease in US greenhouse gas emissions between 1991 and 2014 is technological innovation. The United States has seen a significant increase in the use of natural gas, which is less carbon-intensive than coal. Additionally, there have been significant advances in energy efficiency, which have helped to reduce the amount of energy needed to provide the same level of services. These advances have helped to reduce emissions.
Finally, there have been changes in the US economy that have contributed to the decrease in emissions. For example, the US has experienced a shift away from heavy industry towards services, which are generally less energy-intensive. Additionally, there has been a decrease in manufacturing activity in the US, which has led to a decrease in energy demand. These changes have helped to reduce emissions.
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recycling used electronics instead of dumping them in a landfill would be likely to impact all the following except: a.land use b.ozone layer depletion c.water runoff d.waste management
Recycling used electronics instead of dumping them in a landfill would be unlikely to impact the ozone layer depletion. The ozone layer depletion is primarily caused by the release of chlorofluorocarbons (CFCs) and other ozone-depleting substances into the atmosphere.
Electronics do not contain these substances and thus are not a direct cause of ozone layer depletion. However, electronics contain other hazardous substances such as lead, mercury, and cadmium, which can contaminate soil and water if not properly disposed of.
By recycling electronics, these hazardous substances can be safely removed and disposed of, reducing the impact on land use, water runoff, and waste management.
The recycling of used electronics has numerous environmental benefits, such as reducing energy usage, conserving resources, and reducing greenhouse gas emissions, among others.However, recycling used electronics has no effect on the ozone layer.
The depletion of the ozone layer is caused by the use of ozone-depleting substances such as chlorofluorocarbons (CFCs) and halons, which are commonly used in refrigeration and air conditioning systems, as well as fire suppression systems.
Recycling used electronics has no effect on the use of these substances and thus cannot impact the depletion of the ozone layer.
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1) lava flows are one of the more obvious types of volcanic hazard. which magma, basaltic or rhyolitic, would likely pose the greatest threat to communities in the area surrounding a volcano? explain why.
Answer:
Basaltic magma would likely pose a greater threat to communities surrounding a volcano compared to rhyolitic magma. Basaltic magma has a lower viscosity, meaning it is more fluid and can flow more easily compared to rhyolitic magma, which has a higher viscosity and is more sticky. This means that when basaltic magma erupts, it is more likely to form fast-moving lava flows that can travel long distances from the volcano, posing a greater threat to communities in the surrounding area.
On the other hand, rhyolitic magma has a higher viscosity and is more likely to form explosive eruptions, producing pyroclastic flows, volcanic ash, and other hazardous materials. These materials are typically ejected into the atmosphere and can cause air pollution, respiratory problems, and even global climate change. While these hazards can also have devastating effects on surrounding communities, they are generally confined to a smaller area around the volcano and are less likely to travel long distances, as they are not as fluid as basaltic lava flows.
Basaltic magma would likely pose the greatest threat to communities surrounding a volcano due to its lava flows. This is because basaltic magma has a lower viscosity compared to rhyolitic magma, allowing it to flow more easily and cover larger areas.
The low viscosity of basaltic magma is due to its lower silica content (around 50%) compared to rhyolitic magma, which has a higher silica content (around 70%). The high silica content in rhyolitic magma makes it thicker and more viscous, which slows its movement and limits its flow.
Basaltic lava flows can travel long distances, even tens of kilometers, from the source of the eruption. This means that communities located far from the volcano could still be at risk of being affected by lava flows. Additionally, basaltic lava flows can move at a faster rate, making it more difficult for people to escape or evacuate in time.
Furthermore, basaltic lava flows can cause widespread damage to infrastructure, such as roads, bridges, and buildings, disrupting essential services and potentially isolating communities. They can also alter the landscape, creating new landforms and changing drainage patterns, which could lead to additional hazards such as flooding.
In contrast, rhyolitic eruptions are typically more explosive due to their high viscosity, producing ash clouds and pyroclastic flows rather than extensive lava flows. While these hazards can also be destructive, their impacts are generally more localized compared to the far-reaching effects of basaltic lava flows.
In conclusion, basaltic magma poses a greater threat to communities surrounding a volcano due to its low viscosity, which allows lava flows to travel long distances, move quickly, and cause widespread damage to infrastructure and the environment.
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4. Which of the following nations is a source of modern-day pirates?
Uganda
Egypt
Kenya
Somalia
PLS HELP ME! I HAVE TO FINISH 10 ASSIGNMENTS BY THE END OF THE DAY!
Answer:
The answer of this question is Somalia. The answer is confirmed. hope it was helpful.
how hypocenters and epicenters related?
Answer: The epicenter is the point on the earth's surface vertically above the hypocenter (or focus), point in the crust where a seismic rupture begins.
i know its right because i got it right hope it helps
The hypocenter and epicenter are related as they are both points associated with an earthquake.
The hypocenter is the point beneath the Earth's surface where the earthquake originates, while the epicenter is the point on the surface directly above the hypocenter.
To further explain, an earthquake begins at the hypocenter, which is also known as the focus. This is where the initial rupture of the Earth's crust occurs. Seismic waves then radiate outward from this point, traveling through the Earth's interior and along the surface.
The epicenter is the point on the Earth's surface directly above the hypocenter, and it is usually the location where the strongest ground shaking is experienced during an earthquake.
Scientists use data from seismographs to determine the locations of the hypocenter and epicenter, which helps them understand the earthquake's origin and predict potential damage in affected areas.
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Identify the description of each cultural region.
Midwest
Northwest
Southwest
West Coast
It is the center of US wheat,
corn, and dairy farming.
Its culturally diverse population includes
African Americans, Anglo-Europeans,
Latinos, and Asians.
The use of Spanish-English bilingualism
is more common than in other US regions.
American Indian cultures such as the Inuit
and Aleut remain influential in some areas.
Midwest: US farming center. Northwest: Influential Inuit and Aleut cultures. Southwest: Bilingual, diverse population. West Coast: Innovation, liberal attitudes, tech companies.
How can we identify?
Based on the provided descriptions, the cultural regions can be identified as follows:
Midwest: This region is the center of US wheat, corn, and dairy farming.
Northwest: American Indian cultures such as the Inuit and Aleut remain influential in some areas.
Southwest: Its culturally diverse population includes African Americans, Anglo-Europeans, Latinos, and Asians. The use of Spanish-English bilingualism is more common than in other US regions.
West Coast: This region has a culturally diverse population and is known for its progressive and liberal attitudes. It is home to many tech companies and is a hub of innovation and creativity.
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The use of GPS is becoming popular. Explore the advantages and disadvantages of using GPS.
Advantages of Global Positioning System :
GPS is extremely easy to navigate because it tells you to direction for every turns you’re taking otherwise you need to fancy reach to your destination.
GPS works altogether weather so you would like to not worry of climate as in other navigating devices.
GPS costs you very low as compared other navigation systems.
Most attraction of this technique is its100% coverage on earth.
It also helps you to look nearby restaurants, hotels and gas stations and is extremely useful for a replacement place.
Due to its low cost, it’s very easy to integrate into other technologies like telephone.
System is updated regularly by United States government and hence is extremely advance.
This is the simplest navigating system in water as in larger water bodies we are often misled thanks to lack of proper directions.
GPS signal is out there worldwide. Therefore, users won’t be bereft of it anywhere.
GPS are often used anywhere within world, it’s powered by world satellites, so it are often accessed anywhere, a solid tracking system and a GPS receiver are all you would like.
Disadvantages of worldwide Positioning System :
Sometimes GPS may fail thanks to certain reasons and therein case you would like to hold a backup map and directions.
If you’re using GPS on A battery operated device, there could also be A battery failure and you’ll need a external power supply which isn’t always possible.
Sometimes GPS signals aren’t accurate thanks to some obstacles to signals like buildings, trees and sometimes by extreme atmospheric conditions like geomagnetic storms.
GPS chip is hungry for power which drains battery in 8 to 12 hours. this needs replacement or recharge of battery quite frequently.
GPS doesn’t penetrate solid walls or structures. it’s also suffering from large constructions or structures.
What do you mean by animal physilogy
state two merits and demerits of land rotation and crop rotation
Answer:
Explanation:
Land rotation and crop rotation are both agricultural practices used to manage and maintain the fertility of the soil.
Two merits of land rotation are:
1. Improved soil fertility: By alternating the crops grown on a particular piece of land, land rotation helps to improve soil fertility. This is because different crops have different nutrient requirements and deplete the soil of different nutrients. Growing different crops in different seasons also helps to prevent soil erosion.
2. Reduced disease and pest infestation: Planting the same crop in the same area for many years can lead to a buildup of pests and diseases that are specific to that crop.
Land rotation helps to break this cycle, as pests and diseases are less likely to survive when their host plants are not present.
Two demerits of land rotation are:
1. Reduced crop yields: In some cases, rotating crops may result in lower crop yields, especially if the new crops grown are less productive or less profitable than the previous ones.
2. Increased labor and equipment costs: Land rotation can be labor-intensive and may require additional equipment, such as plows and tillers, to prepare the soil for new crops.
Two merits of crop rotation are:
1. Improved soil health: Crop rotation helps to improve soil health by increasing soil organic matter and nutrient levels, reducing soil compaction, and improving soil structure and water-holding capacity.
2. Reduced pest and disease pressure: Crop rotation helps to reduce pest and disease pressure by interrupting the life cycles of pests and diseases that are specific to certain crops.
Two demerits of crop rotation are:
1. Limited crop options: Crop rotation may limit the types of crops that can be grown in a particular area, as some crops may not be compatible with the rotation cycle or may not thrive in the local climate.
2. Increased management complexity: Crop rotation requires careful planning and management, as well as knowledge of plant biology and soil science. This can be a challenge for small-scale farmers who may not have access to the necessary resources or expertise.
what evidence best supports the idea that 300 million years ago the southwestern united states was a vast desert of sand?
The best evidence that supports the idea that 300 million years ago the southwestern United States was a vast desert of sand comes from the study of sedimentary rocks and fossils found in the region.
The sedimentary rocks in the region, such as sandstones, conglomerates, and shales, provide evidence of the past environment. These rocks contain cross-bedding and ripple marks, which are characteristic features of sand dunes that were formed by wind action.
The presence of these features in the rocks suggests that the area was once covered by a vast desert of sand.
In addition, the fossils found in the region provide further evidence of the past environment. Fossils of animals that are adapted to living in desert environments, such as reptiles, amphibians, and insects, have been found in the sedimentary rocks of the region. These fossils suggest that the region was once a hot, arid desert.
Finally, the absence of fossils of marine animals in the sedimentary rocks of the region also supports the idea that the area was once a desert. Marine animals require water to survive, so the absence of their fossils suggests that the area was not covered by water at the time the rocks were formed.
In conclusion, the study of sedimentary rocks and fossils provides compelling evidence that the southwestern United States was a vast desert of sand 300 million years ago.
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One of the green house gases is carbon dioxide. Explain how increase in the amount of carbon dioxide in the atmosphere causes global warming?
The increase in global temperatures is being brought on by the rising amounts of greenhouse gases, specifically carbon dioxide.
What are the reasons why greenhouse gas levels are rising?The rise in greenhouse gas concentrations is due to human activity. Using fossil fuels like coal and oil has raised the level of atmospheric carbon dioxide during the past century (CO2).
Why do global temperatures rise as a result of the greenhouse effect?The greenhouse effect is the major contributor to climate change. Some gases in the atmosphere of the Earth operate somewhat like the glass in a greenhouse, trapping solar heat and preventing it from escaping back into space and contributing to global warming.
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throughout human evolution, was haivng only one single hominin species alive, as is the case today, the norm of the exception
Throughout human evolution, having only one single hominin species alive, as is the case today, was the exception rather than the norm.
In the past, multiple hominin species coexisted simultaneously. The reason for the current situation of having only one hominin species (Homo sapiens) is primarily due to various factors like migration, competition for resources, and interbreeding.
As hominins evolved and adapted to their environments, some species went extinct while others continued to evolve. This process occurred over millions of years, during which multiple hominin species existed together.
For example, Homo sapiens coexisted with Neanderthals and Denisovans in the same geographical areas for a time.
As Homo sapiens migrated to new areas, they outcompeted other hominin species for resources and sometimes interbred with them, leading to their extinction. Eventually, Homo sapiens became the sole surviving hominin species on Earth.
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The interaction of gravity and the moon's inertia keeps the moon in orbit around Earth. What do the three arrows represent in the figure of Earth and the moon? Enter the correct label for each arrow in the diagram.
The three arrows in the illustration of the Earth and Moon stand for the gravitational pull of the Earth on the Moon, the centripetal force acting on the Moon, and the inertia of the Moon.
How much centripetal force exists between Earth and the moon?Centripetal force is responsible for the moon's nearly round orbit around the Earth. The centripetal force in this instance is gravity. Newton's Universal Law of Gravitation governs this force.
What does the centripetal force on the moon represent?The centripetal force required to keep planets in orbit around the Sun and all kinds of satellites in orbit around the Earth is provided by gravitational attraction. The Moon continues to orbit the Earth because to gravity. The velocity of the Moon is continuously shifting in one direction.
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8) Which of the following is NOT a characteristic of a steppe?
A) grasslands
B) deserts
C) mostly mid-latitudes
D) no trees
Answer: B) deserts
Explanation:
They do not have trees, are grasslands, and have mostly mid-latitudes. They can not however be considered a dessert because it is not "dry enough"
(PLEASE HELP) Often compared to the Feudalism, _________ were similar to nobles in Europe as they required having ready and able armies to be called upon. Question 3 options: Rajas Mansabdar Emperors Sultans
Mansabdars were similar to nobles in Europe as they required having ready and able armies to be called upon, often compared to Feudalism.
How did feudalism start in medieval Europe?Feudalism, in all of its guises, typically develops as the result of an empire becoming more decentralized. This was particularly true of the Carolingian Empire in the ninth century AD, which lacked the administrative framework required to support cavalry without granting territory to these mounted men.
Mansabdars were a class of military commanders in the Mughal Empire of India who held a rank or mansab, which determined their status and salary. They were responsible for maintaining and leading armies, and were expected to be ready to fight at a moment's notice. This system of military commanders and their armies is often compared to European feudalism, in which lords and their vassals had similar military obligations.
Rajas were rulers or kings of Indian states, emperors were the highest rulers in an empire, and sultans were Muslim rulers of a kingdom or empire, but none of these specifically referred to the military commanders with mansabs in the Mughal Empire.
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Which of the following statements is true about the population in São Tomé and Príncipe?
A.
It has the highest rate of emigration in Central Africa.
B.
It has the highest number of people infected with the AIDS virus.
C.
It has the highest population but the lowest population density in Central Africa.
D.
It has the lowest population but the highest population density in Central Africa.
Answer:
C . It has the highest population but the lowest population density in Central Africa.
which statement describes or follows from the concept of sustainability?which statement describes or follows from the concept of sustainability?sustainability means that we regenerate degraded ecosystems.human population must decline for the foreseeable future to maintain earth's natural resources.an example of sustainable use is that the forests that we have today will be preserved and not used for human consumption.an example of sustainable use is that water extracted from underground resources must be equal to or less than the water that recharges the underground resources.
Option C is correct, Water drawn from subterranean resources must equal or be less than the water that recharges the underground resources as the statement describes or follows from the concept of sustainability.
This is an illustration of sustainable use, which exemplifies or derives from the idea of sustainability. This is due to the fact that sustainability is the ability to keep or protect natural resources over an extended period of time for the advantage of future generations.
We can guarantee that the underground resources stay viable and are not exhausted by making sure that the rate of water extraction is equivalent to or lower than the rate of recharge.
To guarantee the long-term survival of other natural resources, such as wood, fishing, and mineral resources, this concept of sustainable use can also be applied to them.
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The question is -
Which statement describes or follows the concept of sustainability?
A) Human population must decline for the foreseeable future to maintain Earth's natural resources.
B) Sustainability means that we regenerate degraded ecosystems.
C) An example of sustainable use is that water extracted from underground resources must be equal to or less than the water that recharges the underground resources.
D) An example of sustainable use is that the forests that we have today will be preserved and not used for human consumption.
overall, which latitude gets the most energy/insolation year round? a. 60 degrees north b. 45 degrees north c. 23.5 degrees north d. the equator e. all latitudes get the same amount of energy
The latitude that receives the most energy/insolation year-round is the equator. Therefore, the correct option is d. the equator.
The amount of solar radiation per unit area on the Earth's surface is known as insolation. It is affected by the angle at which the sun's rays hit the Earth's surface, which is influenced by latitude. The latitude that gets the most insolation throughout the year is the equator because it is located at 0 degrees and receives the most direct sunlight.
The equator receives the most insolation because of its position relative to the sun. The sun's rays are perpendicular to the Earth's surface at the equator, making it the most direct.
At higher latitudes, the angle at which the sun's rays strike the Earth is reduced, resulting in less direct sunlight and less insolation.
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What is sustainable architecture?
Answer: the practice of creating buildings that make as little impact on the natural world as possible
Explanation: it promotes the health of the building's occupants at the same time as reducing the negative effects of the construction process on the environment
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Answer:There has been an influx of Sikhs refugees from Afghanistan to Pakistan due to the turbulent civil war and conflicts that have ravaged neighboring Afghanistan, and many of these Sikhs have settled in Peshawar.
Explanation:
Answer:
this may help
Explanation:
There has been an influx of Sikhs refugees from Afghanistan to Pakistan due to the turbulent civil war and conflicts that have ravaged neighboring Afghanistan, and many of these Sikhs have settled in Peshawar.