Answer:
c
Explanation:
Commercial agriculture in dry climates relies heavily on irrigation. Which of the following best explains an environmental concern that results from irrigation in arid regions?
The high use of water for agriculture increases the price of water for people in urban areas.
The soil will have increased salinity, leading to soil erosion and reduced nutrients in the soil for plant health.
The increased production that results from irrigation of the crop will lead to decreases in crop prices as the total crop harvested will be higher.
The plants grown in this dry region will start to adapt to use less water, but the period to maturity will increase.
The soil will have increased salinity, leading to soil erosion and reduced nutrients in the soil for plant health. this can be the effect of commercial agriculture.
The phrase "commercial agriculture" is frequently used to describe industrial-sized farming. But, in a legal sense, even operating a tiny produce stand is considered commercial agriculture. When food is grown commercially, it is done so to sell it. Marketing includes marketing to or through a variety of outlets, such as produce stands nearby, supermarkets, wholesalers, foreign nations, and restaurants. Due to the fact that commercial agriculture generates income that goes towards a nation's gross domestic product, it is often preferred to subsistence farming. As a result, governments frequently provide financial assistance to commercial farms in an effort to boost output. Commercial farms strive to optimise yields at the lowest possible cost because their business model depends on revenues.
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how many new moons was jupiter discovered to have in february 2023?
Answer:
Astronomers have discovered 12 more moons orbiting Jupiter.
Explanation:
On Feb 16 2023,the planet was discovered to have 12 more moons orbiting Jupiter.
which of the following is true about the nitrogen cycle? A. the form of nitrogen present in significant levels in the atmosphere is easily assimilated by most organisms B. most of the nitrogen in the atmosphere exists as organic molecules C. all organisms can incorporate atmospheric nitrogen into their proteins and nucleic acids D. the activity of specific types of microorganisms is important to convert atmospheric nitrogen molecules into usable forms
D. The activity of specific types of microorganisms is important to convert atmospheric nitrogen molecules into usable forms, is true about nitrogen cycle.
The nitrogen cycle is a complex process that plays an important role in regulating the global environment. The activity of specific types of microorganisms is critical to the nitrogen cycle, as they are able to convert atmospheric nitrogen molecules into usable forms.
The form of nitrogen present in significant levels in the atmosphere is molecular nitrogen (N2), which is not easily assimilated by most organisms.
To make it usable, nitrogen must be "fixed" into more accessible forms, such as nitrates and ammonia, which can then be taken up by plants and other organisms.
Other microorganisms are able to convert nitrates and ammonia back into molecular nitrogen, completing the cycle. Thus, the cycle is powered by the activity of microorganisms, which are able to convert atmospheric nitrogen into usable forms and then back again.
Therefore, correct option is D.
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could some layer of sediment lie beneath a layer of bedrock?
Answer:
Explanation:
No, it is highly unlikely for a layer of sediment to lie beneath a layer of bedrock. Bedrock is formed by the solidification of rock material over a long period of time, usually through the process of cooling and crystallization of magma or the compaction and cementation of sedimentary particles. It is the solid and relatively stable foundation of the Earth's crust and is typically composed of hard, dense rocks such as granite, basalt, or sandstone.
In contrast, sediment is unconsolidated material such as sand, silt, and clay that has been deposited by water, wind, or glaciers. Sediment layers are generally found on top of bedrock and can accumulate over time, but they cannot form beneath it.
However, there are some rare cases where sediment may be found beneath the bedrock. For example, if a layer of sediment is deposited on top of a bedrock layer and then covered by another layer of bedrock through the process of tectonic uplift or erosion, it is possible for the sediment layer to be preserved beneath the new bedrock layer. This is a rare occurrence and requires very specific geological conditions to happen.
in north america, which of the following frequently consumed items is most likely to be supplied by a trans-national corporation?a. Milk
b. Water
c. Coffee
d. Electricity
In North America, the most likely product to be supplied by a transnational corporation among the frequently consumed items is coffee.
The correct answer is C.
Transnational corporations are businesses that have headquarters in one country and subsidiaries in multiple other countries. These corporations are big enough to affect local economies, politics, and people’s lives in a significant way
North America is one of the largest coffee-consuming regions globally, and it's produced in countries such as Brazil, Colombia, and Costa Rica. The vast majority of coffee traded internationally is produced by small farmers and then sold to intermediaries for processing and roasting.
The commodity chain of coffee is increasingly being dominated by TNCs (Transnational Corporations) such as Starbucks, Nestlé, and Jacobs Douwe Egberts, among others. These corporations buy large amounts of coffee beans to process, package, and distribute to retail outlets globally. Therefore, the most likely product to be supplied by a transnational corporation among the frequently consumed items in North America is coffee.
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in 2000, a population of a city is 1,000,000 people. If it has a doubling time of 25 years, when will its population reach 2,000,000
If the city's population has a doubling time of 25 years, it means that it will take 25 years for the population to double. To calculate the annual growth rate, we can use the rule of 70, which states that to find the number of years it takes for a quantity to double, we can divide 70 by the annual growth rate.
So, to find the annual growth rate, we can use the formula: Annual growth rate = 70 / doubling time Annual growth rate [tex]= 70 / 25 = 2.8%[/tex] Now, to find when the population of the city will reach 2,000,000, we can use the formula for exponential growth:[tex]Nt = N0 x (1 + r)^t[/tex] where Nt is the future population, N0 is the initial population, r is the annual growth rate, and t is the time period.We know that [tex]N0 = 1,000,000, Nt = 2,000,000, and r = 2.8%[/tex].[tex]2,000,000 = 1,000,000 x (1 + 0.028)^t[/tex] Taking the natural logarithm of both sides, we get: [tex]ln(2) = t x ln(1.028)[/tex] Solving for t, we get: [tex]t = ln(2) / ln(1.028) = 25.7[/tex] years the city's population will reach 2,000,000 in approximately 26 years, or in the year 2026.
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on the 21st of december which hemisphere has no sunrise between 66.5 degrees of latitude and the pole?
It would take place in the Northern hemisphere.
according to the map, most industrialization in europe occurred in the northwest . the production of was profitable throughout western europe. the building of helped transport goods throughout europe. according to the map, the population trend indicates that more people are moving into
According to the map, most industrialization in Europe occurred in the northwest. The production of textiles was profitable throughout Western Europe.
The building of railroads helped transport goods throughout Europe. According to the map, the population trend indicates that more people are moving into urban areas.
To summarize:
- Most industrialization in Europe occurred in the northwest.
- The production of textiles was profitable throughout Western Europe.
- The building of railroads helped transport goods throughout Europe.
- The population trend indicates that more people are moving into urban areas.
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Question 1 3 pts The style of eruption depends on the plate tectonic setting in which the volcano is situated. Compare the different eruption styles you could observe at a divergent versus a convergent plate boundary. Make sure to address the roles that composition, viscosity, and gas content play in your answer.
At a divergent plate boundary, the plates are moving away from each other. This type of plate boundary is typically associated with less explosive eruptions.
Eruptions in this type of setting are usually composed of basaltic magma, which is low in silica content and very fluid.
These eruptions produce lava flows and rarely cause ash and pyroclastic flows. Since the viscosity of basaltic magma is low, gas bubbles can escape easily and cause less explosive eruptions.
At a convergent plate boundary, the plates are pushing together. This type of plate boundary is typically associated with explosive eruptions.
Eruptions in this type of setting are usually composed of andesitic or rhyolitic magma, which is high in silica content and more viscous than basaltic magma.
These eruptions produce ash and pyroclastic flows, and can be more explosive due to the higher viscosity of andesitic or rhyolitic magma.
The gas bubbles are more difficult to escape, so pressure builds up and causes more explosive eruptions.
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air flowing toward the equator is pushed and air flowing away from the equator is pushed is called
The phenomenon of air flowing toward the equator being pushed and air flowing away from the equator being pushed is known as the Hadley Cell.
This atmospheric circulation is named after George Hadley, an English lawyer who first proposed the concept in 1735.
The Hadley Cell is a two-celled atmospheric circulation in which air near the equator rises up and is pushed to the tropics, cooling as it moves away from the equator.
At the tropics, the air sinks back down to the surface and is pushed away from the equator, heating up as it moves towards the poles.
This circulation pattern helps to redistribute heat around the Earth and keeps the equator warm while cooling off the poles. This is why temperatures decrease significantly the further away you are from the equator.
The Hadley Cell is an important part of the global climate system, and without it, the planet would be significantly colder overall.
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When does flooding occur?
a. When the amount of water exceeds the capacity of the land
b. When the amount of water exceeds the capacity of the rainfall
c. When the amount of water exceeds the capacity of the river's channel. The excess water overflows the river's banks and spills out across the flood plain. D. Prolonged rainfall leading to the satiation of the ground
Flooding occurs when the amount of water exceeds the capacity of the land or the rainfall. The correct option is B.
This can happen due to several reasons, such as heavy rainfall, melting snow, or a high tide. When the capacity of the river’s channel is exceeded, the excess water overflows the river’s banks and spills out across the flood plain. Prolonged rainfall can also lead to flooding, as the water will saturate the ground and begin to pool in low-lying areas.
In addition, flash floods can occur when a heavy rainstorm or thunderstorm happens in a very short period of time, making it difficult for the ground to absorb the water. In any case, when flooding occurs, it can result in significant damage to property, infrastructure, and the environment, making it important to take precautions to prevent flooding where possible. The correct option is B.
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examine the images of the grand canyon below. notice that most of the canyon consists of layers of sedimentary rocks, but if you were to hike down into the inner gorge you would encounter the vishnu schist, a metamorphic rock. which of the following processes were involved as the vishnu schist metamorphosed? photograph a shows the grand canyon the inner gorge of the grand canyon, a steep gorge in the deepest part of the canyon with a river at its bottom. photograph b shows the vishnu schist, a dark colored rock outcrop jutting out from one side of the inner gorge. view available hint(s)for part a examine the images of the grand canyon below. notice that most of the canyon consists of layers of sedimentary rocks, but if you were to hike down into the inner gorge you would encounter the vishnu schist, a metamorphic rock. which of the following processes were involved as the vishnu schist metamorphosed? photograph a shows the grand canyon the inner gorge of the grand canyon, a steep gorge in the deepest part of the canyon with a river at its bottom. photograph b shows the vishnu schist, a dark colored rock outcrop jutting out from one side of the inner gorge. eruption and cooling of a lava flow. intense pressure due to regional metamorphism. deposition, burial, compaction, and cementation of sediment. cooling of magma.
The following processes were involved as the vishnu schist metamorphosed photograph b shows the vishnu schist, a dark colored rock outcrop jutting out from one side of the inner gorge eruption and cooling of a lava flow.
The Vishnu Schist found in the inner gorge of the Grand Canyon was formed through intense pressure due to regional metamorphism. This is different from the sedimentary rocks found in the rest of the canyon, which are formed through deposition, burial, compaction, and cementation of sediment. Eruption and cooling of a lava flow and cooling of magma are not processes that were involved in the metamorphosis of the Vishnu Schist.
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The Aleutian and Hawaiian Islands form from completely different processes related to Plate Tectonics. Using Plate Tectonic theory and correct technical terms, explain how they form.
The Aleutian and Hawaiian Islands form from two different processes related to Plate Tectonics. The Aleutian Islands are formed by the subduction of the Pacific plate beneath the North American plate at the Aleutian Trench. This process is also known as a convergent plate boundary.
During subduction, the oceanic lithosphere is consumed and in the process magma is produced and rises to the surface. This magma then cools and hardens to form the Aleutian Islands.
The Hawaiian Islands are formed by a process known as hotspot volcanism. Hotspots are stationary mantle plumes that rise from the mantle and melt the lithosphere.
This process is also known as a divergent plate boundary. The Hawaiian hotspot is located beneath the Pacific plate and has created the Hawaiian Ridge of islands, as the Pacific plate has moved over it.
The molten material erupts to the surface to create new volcanoes and as the older volcanoes move away from the hotspot, they become inactive and form islands.
Both processes create volcanic islands, but the way in which the volcanoes form differs between the Aleutian and Hawaiian Islands. The Aleutian Islands are formed through subduction while the Hawaiian Islands are formed through hotspot volcanism.
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The early atmosphere on Earth was _____.a. mostly carbon dioxide
b. extremely cold
c. full of oxygen
d. hot
The early atmosphere on Earth was mostly carbon dioxide.
So, the correct answer is A.
What is the atmosphere?An atmosphere is the blanket of gas that surrounds a planet or other celestial object. Earth's atmosphere, which is mainly composed of nitrogen and oxygen, contains small amounts of other gases. The atmosphere can be broken down into several different layers. Troposphere, stratosphere, mesosphere, thermosphere, and exosphere are the five layers of the Earth's atmosphere. The early atmosphere of Earth was mostly carbon dioxide.
The atmosphere of the Earth comprises a variety of gases, including oxygen, nitrogen, argon, and carbon dioxide. These gases are unevenly distributed in the atmosphere due to the Earth's rotation, atmospheric pressure, and other factors. The majority of the Earth's atmosphere is composed of nitrogen (about 78 percent) and oxygen (about 21 percent). Other gases make up the remaining 1% of the atmosphere, with trace amounts of other elements and compounds contributing to the air we breathe.
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What are gases that accumulate in the atmosphere and contribute to global warming?
The gases that accumulate in the atmosphere and contribute to global warming are known as greenhouse gases. They trap heat from the sun and cause the Earth's temperature to increase.
What is global warming?Global warming refers to the phenomenon of Earth's average surface temperature increasing due to human activities that increase the concentration of greenhouse gases in the atmosphere. Greenhouse gases such as carbon dioxide, methane, and water vapor trap heat in the Earth's atmosphere, causing global temperatures to rise. This is referred to as the greenhouse effect.
What is the greenhouse effect?The greenhouse effect is a natural process that occurs when certain gases in the Earth's atmosphere, referred to as greenhouse gases, trap heat from the sun, preventing it from escaping into space. As a result, the Earth's temperature is kept within a range that is conducive to life as we know it.
However, human activities such as burning fossil fuels, deforestation, and industrial processes have led to an increase in the concentration of greenhouse gases in the atmosphere, intensifying the greenhouse effect and causing global warming. This is a significant concern, as global warming can have a range of negative impacts on the environment and human societies.
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what volcanic eruption was the loudest in modern history?
Answer:
Explanation:
The loudest volcanic eruption in modern history was the 1883 eruption of the Krakatoa volcano, which is located between the islands of Java and Sumatra in Indonesia. The explosion was so powerful that it was heard over 3,000 miles away, and it produced a sound that is estimated to have reached 172 decibels at a distance of 100 miles from the source. The eruption caused widespread damage and loss of life, with tsunamis and other effects felt across the region.