explain why it is colder in the Arctic and Antarctica compared to places near the Equator. (4 marks)Immersive Reader
Answers
Answer:
the earth is tilted at an angle hence why the suns rays are a lot stronger at the center of the earth where the equator is, both the arctic and antarctic don't get any direct sunlight.
Explanation:
Related Questions
Which of the following are types of energy transformation?
Check all that are true.
a book resting on a shelf
O two magnets that are stuck together
- a person rubbing their hands together to warm them
Opicking up a water balloon and throwing it
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On April 20, 2010, an explosion aboard the Deepwater Horizon, a drilling rig leased by the oil company BP, set off a blaze that killed 11 crew members. Two days later, it sank about 50 miles off the Louisiana coast and crude oil began gushing out of a broken pipe 5,000 feet below the surface. a) What role did water currents play in the environmental damage that occurred as a result along the Gulf Coast? b) What information do you think an oceanographer would need to know when determining where the oil would travel? c) How bad were the biological impacts (ex. animals, fisheries, habitats, etc...) to shoreline habitats or wildlife from the oil spill? (Your response must be 100 words at minimum for full credit)
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Water currents played a significant role in the environmental damage caused by the Deepwater Horizon oil spill along the Gulf Coast.
a) The spill released a massive amount of crude oil and the movement of water currents influenced the spread and distribution of the oil. The currents also affected the dispersion and mixing of the oil, potentially impacting different depths and layers of the ocean.
b) To determine the oil's travel path, an oceanographer would need to consider various factors including knowledge of prevailing and secondary currents in the area, influence of wind patterns, which can affect surface drift. Additionally,and information about the oil's properties.
c) The Deepwater Horizon oil spill had significant biological impacts on shoreline habitats and wildlife along the Gulf Coast. The oil contamination posed a threat to various marine organisms, including fish, birds, marine mammals, and invertebrates. The spill highlighted the vulnerability of coastal habitats and the need for robust mitigation measures and environmental monitoring to minimize such devastating impacts.
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find the video of professor morgan making a concept map for chapter 3. what two subcategories does she break polysaccharides (a type of carbohydrate) into in her concept map?
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In the video of Professor Morgan making a concept map for chapter 3, the two subcategories she break polysaccharides into are oligosaccharides and the simple sugars.
When contrasted to other, more prevalent carbohydrates, including those in the disaccharide group, oligosaccharides, or carbohydrates with between 3 and 10 single sugar residues, are not as prevalent in the diet. The oligosaccharides raffinose, stachyose, and verbascose are typical.
At every period of one's life, carbohydrates, which are commonly referred to as carbs, are essential. They are the main energy energy source for us and the main energy source for the mind. The body converts carbohydrates into glucose, a form of sugar. A healthy diet must include carbohydrates because they contain many crucial elements.
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can someone help me:)
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Explain how a sudden large net out-migration can impact an aging country.
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7. based on the nature of seismic waves, how do we know that layer b is not liquid?
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Seismic waves are vibrations that travel through the Earth's layers and provide valuable information about its internal structure. These waves can be divided into two types: P-waves and S-waves. P-waves are compression waves that can travel through solids and liquids, while S-waves are transverse waves that can only travel through solids.
Based on the behavior of S-waves, we know that layer b is not liquid. S-waves cannot travel through liquids, as liquids lack the necessary rigidity to transmit these waves. Therefore, if S-waves are detected in layer b, we can conclude that it is a solid layer. If S-waves are not detected in layer b, it could be either a liquid or a solid layer, but it is less likely to be a solid layer due to its absence of rigidity. Overall, seismic waves provide a powerful tool for understanding the Earth's internal structure, and the behavior of S-waves is crucial for determining the nature of each layer.
Hi! Based on the nature of seismic waves, we can determine that layer B is not liquid due to the behavior of different wave types. Seismic waves consist of two main types: primary (P) waves and secondary (S) waves. P waves can travel through solid, liquid, and gas, while S waves can only travel through solid materials.
When seismic waves are detected and analyzed, the absence or significant reduction of S waves in layer B would indicate that it is a solid layer, as S waves cannot propagate through liquids. Additionally, P waves may show a change in speed when crossing between different layers, providing further evidence for the composition of layer B.
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What compass directions are used to give areas in degrees of latitude?
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Answer:
north south east west are the compass to find
Negotiating treaties is under the authority of which branch of the U.S. government?
Legislative
Judicial
Executive
All of these
Answers
Answer:
Executive
Explanation:
Which of the following goods was the most expensive item traded by the Phoenicians?
A. gold jewelry
B. ivory carvings
C. Tyrian purple dye
D. alabaster vases
Please select the best answer from the choices provided
Answers
Answer:
A.Gold jewelry
Explanation:
guessing
The tyrian purple dye was the most expensive item traded by the Phoenicians
6. Why are traditional economies sustainable? (1 point)
O They produce little waste.
They have specialized jobs.
O They have a central authority.
They can meet their needs over time.
Answers
Answer:
They produce little waste
As traditional economies are small, they are not as environmentally destructive as developed economies. They don't have the capacity to produce much more than what they require. Traditional economies generate very little waste.
What is a traditional economy?Fundamental economic decisions in traditional economies, such as the production and distribution of goods and services, are determined by tradition and societal needs rather than monetary profit potential.
People in traditional economies typically trade or barter instead of using money, and their livelihoods are based on agriculture, hunting, fishing, or a combination of the three.
Traditional economies are commonly found in rural areas of developing second and third-world countries, particularly in Africa, Latin America, Asia, and the Middle East. Traditional economies are based on a family or tribe.
Therefore, producing little waste makes traditional economies sustainable.
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Explain why tectonic activitys happen along the plate boundaries rather than in the middle of a plate
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Answer:
Tectonic Plates and Plate Boundaries
You can actually see New Zealand’s plate
The Earth’s outer shell, the lithosphere, consisting of the crust and uppermost mantle, is divided into a patchwork of large tectonic plates that move slowly relatively to each other. There are 7-8 major plates and many minor plates. Varying between 0 to 100mm per year, the movement of a plate is driven by convection in the underlying hot and viscous mantle.
surface oceanic circulation results most directly in the
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Surface oceanic circulation results in the distribution of the heat from the tropical all the way to the temperate and polar regions.
Ocean circulation patterns are basically the movement of the large masses of the water which is present both at as well as below the surface and are basically determined by the variation in the amount of sunlight which is getting absorbed along with latitude, atmospheric circulation patterns, and also the water cycle.
Most of the sunlight which gets absorbed by the water which is present on the Earth’s surface basically gets stored in the oceans as heat, which resultantly increases the ocean’s temperature. This heat then gets transported by the currents and then gets re-radiated. This influences not only the regional air temperatures but also dictates the climates all over the globe.
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What is the relationship between the declaration of independence and the bill of rights
A. The bill of rights outlines rights explained in the declaration of independence.
B. The bill of rights expands on the reasons for revolution stated in the declaration of independence.
C.the bill of rights created a strong government in place of the declaration of independence.
D.the bill of rights guarantees individual freedoms described in the declaration of independence
Answers
Answer:
the constitution outlined how this government would function, hope I helped.
Explanation:
hope I helped you.
People objected to the constitution at first because they wanted individual freedoms to be protected.
A student reads that the fossil of the glossopteris plant is found in the continents of Africa, South America, Australia, and Antarctica. The plants arose during the Permian period and became extinct during the Triassic period.
What can be inferred from this finding?
A - Continental drift is responsible for regulating past climates, making it possible for many plant species to adapt to various environmental conditions.
B - Continental drift led to creating volcanoes with lava that generated fertile soil worldwide, enabling different continents to support similar vegetation.
C - Continental drift is the main factor for separating plates in the past and upon separation, the land pieces carried traces of similar plants.
D - Continental drift led to placing landmasses permanently at the equator, where warm temperatures produced a variety of plant life.
Answers
How did Mapp v. Ohio set a legal precedent?
1. The Supreme Court’s ruling extended the exclusionary rule to state courts.
2. The Supreme Court’s ruling made it legal to own por..graphy.
3. The Supreme Court’s ruling allowed officers to enter homes within reason.
4. The Supreme Court’s ruling required that state courts uphold anti-gambling laws.
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The case of "Mapp v. Ohio" set a legal precedent because the Supreme Court’s ruling extended the exclusionary rule to state courts. The Option 1 is correct.
Why is case of Mapp v. Ohio significant?In Mapp v. Ohio, the United States Supreme Court ruled (6-3) on June 19, 1961, that evidence obtained in violation of the Fourth Amendment to the United States Constitution, which prohibits "unreasonable searches and seizures," is inadmissible in state courts.
In doing so, it held that the federal exclusionary rule, which prohibited the use of unconstitutionally obtained evidence in federal courts, was also applicable to states under the incorporation doctrine, the theory that most protections of the federal Bill of Rights are guaranteed against the states under the Fourteenth Amendment's due process clause, which prohibits states from denying life, liberty, or property without due process of law.
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Describe: Look closely at the pictures found below.
1. Describe the picture on the LEFT. What do you see?
2. Describe the picture on the RIGHT. What are the father and son talking about?
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Answer:
a guy that's sick he looks exactly sad and sick
Answer:
On the first picture it is said that earth is being destroying due to bad human activities and it is suffering from global warming.
On the second picture a son and the father used to do fishing on water . But after the bad human activities, they could not find river for fishing and they are talking about what's happening.
SOMEONE PLEASE HELP NOW:((
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Answer:
2(24 + 12 + A) = 216
36 + A = 108
A = 72 meters^2
12x = 72, so x = 6 meters
Erika is getting ready for a science presentation at her school on the topic of common landforms found in Florida. Which of the following landforms should NOT be included in her presentation?
Answers
Answer:
Explanation:
The answer is glaciers.
Erika is getting ready for a science presentation at her school on the topic of common landforms found in Florida. Glaciers of the following landforms should not be included in her presentation. Thus, option (a) is correct.
What is landforms?The Earth's surface, which is a component of the terrain, is referred to as having landforms. The main categories of landforms include mountains, plains, plateaus, beaches, glaciers, hills, canyons, and valleys. It was the physical feature on the earth surface,
According to the case, the Erika is getting ready for a science presentation; She was the ready presentation on common landforms found in Florida. She was included the common feature of the landforms such as plains, plateaus, valleys, are the included but not the glaciers is included.
As a result, the significance of the glaciers of the following landforms should not be included in her presentation are the aforementioned.
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Your question is incomplete, but most probably the full question was.
Erika is getting ready for a science presentation at her school on the topic of common landforms found in Florida. Which of the following landforms should NOT be included in her presentation?
Glaciers. Plains. Mountains. Valleys.What is the difference between Arable, pastoral, and mixed farming?
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Answer:
Arable farms grow crops. Crops are plants that are harvested from the ground to be eaten or sold. Pastoral farms rear animals - either for animal by-products such as milk, eggs or wool, or for meat. Mixed farms grow crops and rear animals.
Which of the following would be an example of decreasing the lithostatic pressure under a volcano?
Lava flows stacking on top of one another to make a taller volcano.
Volcanic gas interacting with the rocks to make them weaker.
Violent shaking of the volcano due to large earthquakes.
A landslide that removes the top of a volcano.
Answers
Answer:
Lithostatic pressure, the stress exerted on a body of rock by surrounding rock, is pressure in Earth's crust somewhat analogous to hydrostatic pressure in fluids. Lithostatic pressure increases with depth below Earth's surface.
Explanation: Abstract
We use numerical models to study the mechanical stability of magma reservoirs embedded in elastic host rock. We quantify the overpressure required to open tensile fractures (the failure overpressure), as a function of the depth and the size of the reservoir, the loading by the volcanic edifice, and the pore fluid pressure in the crust. We show that the pore fluid pressure is the most important parameter controlling the magnitude of the failure overpressure rather than the reservoir depth and the edifice load. Under lithostatic pore fluid pressure conditions, the failure overpressure is on the order of the rock tensile strength (a few tens of megapascals). Under zero pore fluid pressure conditions, the failure overpressure increases linearly with depth (a few hundreds of megapascals at 5 km depth). We use our models to forecast the failure displacement (the cumulative surface displacement just before an eruption) on volcanoes showing unrest: Sinabung and Agung (Indonesia) and Okmok and Westdahl (Aleutian). By comparison between our forecast and the observation, we provide valuable constraint on the pore fluid pressure conditions on the volcanic system. At Okmok, the occurrence of the 2008 eruption can be explained with a 1,000 m reservoir embedded in high pore fluid pressure, whereas the absence of eruption at Westdahl better suggests that the pore fluid pressure is much lower than lithostatic. Our finding suggests that the pore fluid pressure conditions around the reservoir may play an important role in the triggering of an eruption by encouraging or discouraging the failure of the reservoir.
1 Introduction
The past decades have provided a wealth of observations of ground surface deformation before, during, and after volcanic eruptions using Global Positioning System (GPS), tiltmeters, strainmeters, or satellite radar interferometry (InSAR). Observed preeruption inflation ranges from a few centimeters prior to the 2006 Augustine eruption, Alaska (Cervelli et al., 2006) to several meters at Sierra Negra volcano, Galapagos Islands (Geist et al., 2008). An important question for hazard assessment is whether detected inflation is a precursor for an eruption (Biggs et al., 2014; Chaussard et al., 2013; Dzurisin, 2003; Moran et al., 2011). There are many observations of preeruptive inflation at basaltic volcanoes, for example, at Krafla and Grimsvötn in Iceland (Bjornsson et al., 1979; Ewart et al., 1991; Lengliné et al., 2008; Reverso et al., 2014; Sturkell et al., 2006), Kilauea in Hawaii (Dvorak & Dzurisin, 1993), Fernandina in the Galapagos Islands (Bagnardi & Amelung, 2012), Axial Seamount in the Pacific ridge (Nooner & Chadwick, 2009), and Okmok in Alaska (Lu et al., 1998, 2010). For several andesitic and dacitic volcanoes arc-wide, InSAR surveys have documented preeruptive inflation (Chaussard & Amelung, 2012; Chaussard et al., 2013; Lu & Dzurisin, 2014; Pritchard & Simons, 2002; 2004). In contrast, other volcanic systems can show unrest in form of ground deformation, earthquakes swarms, large heat, and gas emissions for months to decades without eruption (Acocella et al., 2015; López et al., 2012; Lowenstern et al., 2006; Martí et al., 2013; Newhall & Dzurisin, 1988). This is the case of many silicic caldera volcanoes such as Long Valley (Hill, 1984; Newman et al., 2006), Santorini (Newman et al., 2012; Parks et al., 2012), Yellowstone (Chang et al., 2007; Wicks et al., 2006), Campi Flegrei (Amoruso et al., 2007; Beauducel et al., 2004; Di Vito et al., 1999; Gottsmann et al., 2006; Lundgren et al., 2001; Orsi et al., 1999; Samsonov et al., 2014; Trasatti et al., 2008; Troise et al., 2007; Vilardo et al., 2009), or Laguna del Maule (Feigl et al., 2014; Le Mével et al., 2015).
The inflation of the ground surface in volcanic areas results from stress changes in the crust due to the accumulation of magma or the exsolution of gas inside reservoirs or due to the propagation of magma through intrusions or conduits. Such surface displacements are often modeled at first order by analytical solutions such as point pressure sources (Mogi, 1958), finite spherical sources (McTigue, 1987), or dislocations (Okada, 1985) embedded in an elastic half-space. In a case by case approach, more realistic models based on numerical techniques have been also developed to better explain volcanic ground deformation. Such models can take into account the rheology of the crust, the heterogeneities of the rock properties and the topography of the volcano (Currenti et al., 2010; Del Negro et al., 2009; De Natale et al., 1997; Geyer & Gottsmann, 2010; Ronchin et al., 2015).
Cold water of the same source forms lather hardly with soap. Why?
Answers
Answer:
Elaborate on the question
Explanation:
for a pair of bodies, where is the center of mass located?
Answers
For simple rigid objects with uniform density,the center of mass lies at the centroid for a pair of bodies.
the center of mass of a uniform disk shape would be at its center.The center of mass of a body is the point at which all the mass of the body appears to be concentrated.The center of mass is usually inside the body, but the position can change.The center of mass depends on the shape and its mass distribution for a continuous distributed object.Then, you add them up and divide them by the sum of all the individual masses. No,it is not necessary that the center of mass of a body is inside it.The center of mass of a system is defined as the point at which all the mass of the system appears to be concentrated.Any applied external force acts on this point.
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The Appalachian mountains are the main mountain range in the west. True or False
Answers
Answer:
FALSE
Explanation:
The Appalachian mountains are the main mountain range in the east part of the United States.
False, The Appalachian mountains are the main mountain range in the east.
The Appalachian Mountains are a network of mountain ranges in North America. Located partly in Canada but mostly in the United States, they form a zone of 150-500 kilometers (approximately 300 miles). Newfoundland and Labrador in Canada and central Alabama in the United States are 2,400 km (1,500 miles) apart, with foothills in northeastern Mississippi.
The Gaspé Peninsula is the northernmost part of the mainland. It is estimated that the Appalachians predate the formation of the North American continent by several thousand years.
It consists of a series of ranges that rise up to about 900 meters (3,000 feet) in height. Mount Mitchell, the highest peak in eastern North America east of the Mississippi River, has a height of 2,037 m (6,684 feet), which is the highest point east of the Mississippi River.
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Studies of cores obtained from continental glaciers and deep-sea sediment indicate that.
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Deep-sea sediments may provide information about the last 200 million years of Earth's history, including the spreading of the seafloor.
The evolution of marine life, the operation of the Earth's magnetic field, and changes in ocean currents and temperature.
Sediment specimens from the Arctic Ocean indicate that a nearby high Arctic land mass may have been subject to glaciations throughout the Eocene and Miocene.
Based on sediment cores obtained from the Southern Ocean dating back 23 million years, a study by two Texas A&M researchers hypothesizes that ancient methane escaping from the bottom may well have contributed to regional or global shifts in climate and ecosystems.
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Latin America is an incredible combination of cultures. What kinds of cultures are combined in traditions in the United States?
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Answer:
U.S. culture has also been shaped by the cultures of Indigenous Americans, Latin Americans, Africans and Asians. The United States is sometimes described as a "melting pot", according to Golden Beacon USA, in which different cultures have contributed their own distinct "flavors" to American culture.
Explanation:
Carolus linnaeus developed a system to organize all life on earth called:.
a)Binomial nomenclature
b)Biological naming system
c) Standard protocol
d)None of these
Answers
a) Binomial nomenclature
Carl Linnaeus developed the system of binomial nomenclature to organize all life on Earth. This system assigns a unique two-part name to each species, consisting of the genus name and the species name. The binomial nomenclature provides a standardized and universally recognized way to identify and classify organisms, allowing for clear communication and understanding in the field of biology.
Linnaeus introduced this system in his landmark work "Systema Naturae" published in 1735. The use of binomial names helps in organizing and categorizing the vast diversity of species on Earth, providing a common language for scientists and researchers to study and discuss different organisms. It allows for precise identification and facilitates the classification and understanding of the relationships between different species. The system has since been expanded and refined by subsequent scientists, but the fundamental concept of binomial nomenclature remains a key contribution of Linnaeus to the field of taxonomy.
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The tittle of " the land of morning calm" was given to South Korea by ______.
Answers
Answer:
by westerners missionaries (British, German and American)
Explanation:
the name was given to Korea because of the beautiful views and scenery so the expression was created by westerners who visited
Answer:
In 1934 A.D., an emperor of the Ming dynasty of China, the Celestial Empire of the East, gave Korea the title of ''Chaohsien'' meaning morning freshness.
Explanation:
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A map scale is listed as 1:1200 The length of each division on the engineers scale is equal to: Ο Ο 20-ft Ο 10-ft O1-ft ( 100-ft
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The length of each division on the engineer's scale, for a map scale of 1:1200, is equal to 10 ft. Option B is correct.
In a map scale of 1:1200, it means that one unit on the map represents 1200 units in the real world. To determine the length of each division on the engineer's scale, we need to divide the length on the map by the corresponding ratio. Since the scale is 1:1200, and the length provided is 10 ft, we divide 10 ft by 1200, resulting in approximately 0.0083 ft per division.
Since 1 ft is equal to 12 inches, each division on the engineer's scale would be approximately 0.1 inches (or 1/10th of an inch). Therefore, the length of each division on the engineer's scale is equal to 10 ft.
Option B holds true.
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What is the main religion in the shaded region?
A) Hinduism
B)Buddhism
C)Islam
D)Christianity
Answers
Answer:
Option C, Islam.
Explanation:
The shaded region is very close to regions like Arabia, Pakistan, South Africa, and more like Dubai. In these places, only Islam can be followed.
Hoped this helped.
How dose the climate of Latin America effect people.
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Answer:
Latin America's climate is changing. Precipitation patterns are shifting, temperatures are rising, and some areas are experiencing changes in the frequency and severity of weather extremes such as heavy rains. The impacts range from melting Andean glaciers to devastating floods and droughts.