Crystalline rocks contain crystals that have been cemented together. These crystals are usually interlocking, meaning they fit together tightly. To determine if a rock is crystalline, you can look for certain characteristics.
The first characteristic of a crystalline rock is that it contains all one type of crystal. This crystal type can be identified by its shape and color. Crystals often appear in regular patterns, giving a crystalline rock a distinct, geometric look.
The second characteristic of a crystalline rock is that it is relatively hard. Crystalline rocks are usually harder than non-crystalline rocks. To test the hardness of a rock, you can use a simple scratch test. If the rock is crystalline, it will scratch metal or glass but not be scratched by them.
The third characteristic of a crystalline rock is that it does not contain any voids or gaps. Crystalline rocks are usually solid and the crystals are very tightly packed together. This creates a solid mass with no voids or gaps.
Finally, crystalline rocks often have a shiny or glassy appearance. This is due to the light reflecting off of the crystals. The shiny surface also reflects light and appears to have a glossy sheen.
To determine if a rock is crystalline, look for these characteristics. It should contain all one type of crystal, be relatively hard, have no gaps or voids, and have a glossy or shiny appearance. If these characteristics are present, the rock is likely crystalline.
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The following statements compare and contrast cryovolcanism with regular volcanism. Which are true?
Choose one or more:
A. Cryovolcanism always ejects water ice crystals while regular volcanism always ejects rock.
B. Cryovolcanism operates at a higher temperature.
C. Both eject material from the interior of a planetary body.
D. Only regular volcanism has ever been observed. Cryovolcanism refers to ancient volcanism.
E. Both can be used to help determine the age of the surface of a body.
F. Regular volcanism is driven by a molten rock interior, while cryovolcanism is driven by a cold liquid interior.
The true statements are:
C. Both eject material from the interior of a planetary body.
E. Both can be used to help determine the age of the surface of a body.
F. Regular volcanism is driven by a molten rock interior, while Cryovolcanism is driven by a cold liquid interior.
The correct answer is C, E and F.
Statement A is false because Cryovolcanism can eject various materials, including water ice, ammonia, and methane, while regular volcanism usually ejects molten rock, ash, and gas, statement B is false as Cryovolcanism operates at much lower temperatures than regular volcanism, and the statement D is also false as Cryovolcanism has been observed on several icy bodies in the Solar System, including Enceladus and Europa.
Cryovolcanism and regular volcanism are two types of volcanic activity that occur on planetary bodies in our Solar System. While a molten rock interior drives regular volcanism, Cryovolcanism is driven by a cold liquid interior, usually water or another volatile substance.
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The taiga biome has long, cold, dry winters and cool, wet summers. In three to four sentences, describe how the plants and animals would be impacted by a warm and dry summer and how they might survive. Support your answer with the abiotic factors in the biome.
A warm and dry summer would make it harder for most animals to survive since fewer plants would grow. When the temperatures drop, some animals will hibernate so that they don't starve due to the lack of plants. Other animals have thick hair to fight cold and can dig well to hunt hibernating animals like how foxes dig for rodents under the snow.
which description of the earth's magnetic field is most accurate for a person living in champaign-urbana?
The magnetic field of the earth is measured using magnetic poles that are located at the earth's North and South Poles. The magnetic field of the earth is generated by the earth's molten core.
There are a few different ways in which the earth's magnetic field is measured. One of the most common ways is by using a magnetic field strength meter.
For a person living in Champaign-Urbana, the earth's magnetic field would be described as being generally weak. This is because Champaign-Urbana is located relatively close to the earth's equator.
As a result, the magnetic field is not as strong in this region as it is in regions closer to the earth's poles.
In general, the earth's magnetic field is weaker near the equator than it is near the poles. This is because the magnetic field lines are more spread out at the equator, and the magnetic field is less concentrated.
In contrast, near the poles, the magnetic field lines are more tightly packed together, and the magnetic field is more concentrated.
It is important to note that the strength of the earth's magnetic field can also be affected by a number of different factors, such as solar activity and changes in the earth's magnetic field itself.
As a result, the strength of the earth's magnetic field can vary somewhat over time.
In summary, the earth's magnetic field is generally weaker near the equator, which means that a person living in Champaign-Urbana would experience a relatively weak magnetic field.
However, the strength of the earth's magnetic field can also vary over time due to a number of different factors.
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what is the dominant factor in the location of the population settlements in north africa and southwest asia?
The dominant factor in the location of population settlements in North Africa and Southwest Asia is the availability of resources.
These regions are characterized by harsh climates and thirsty geographies, limiting the vacuity of pastoralist land and fresh water. People have settled near gutters, oases and littoral areas as these offer access to water and land suitable for husbandry. In some areas, similar as the Middle East,
oil painting reserves have been a major factor in the position of agreements, as they give an profitable source of income. In other areas, similar as the Maghreb, mortal agreements have been established in areas with a more temperate climate, allowing for further varied foliage and a more different range of resources.
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Identify at least three ways the mountain people of Nepal earn a living
The mountain people of Nepal, who live in remote areas with difficult terrain, have developed a variety of economic activities to sustain themselves and their families. Here are three ways they earn a living: agriculture, tourism, and trade
Agriculture: Farming is the primary occupation of mountain people in Nepal. They cultivate crops like rice, maize, millet, potatoes, and vegetables, using traditional farming practices such as terracing to maximize land use. They also raise livestock such as cows, goats, sheep, and yaks for meat, milk, and wool.
Tourism: Many mountain people in Nepal live near popular trekking routes, and they earn a living by providing services to tourists such as guides, porters, and homestay accommodations. They also sell handicrafts like traditional textiles, pottery, and jewelry to tourists.
Trade: Mountain people in Nepal often engage in trade with nearby villages or towns. They may collect and sell forest products such as herbs, honey, and timber, or trade goods like salt, tea, and clothing. Some mountain people also work as laborers in construction or transportation, building roads and bridges or carrying goods by pack animal or on foot.
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considering how magma composition, temperature, water content, and volatile content affect its viscosity, associate each of the volcanoes described in this activity with the type of eruption it should produce, or indicate whether the described characteristic is not related to eruption style. drag the appropriate items into their respective bins.
To answer this question, first we need to understand the factors that affect a volcano's eruption type. These factors are magma composition, temperature, water content, and volatile content. Based on these factors, we can associate each volcano with the type of eruption it should produce or indicate whether the described characteristic is not related to eruption style.
Volcano Magma Composition Temperature Water Content Volatile Content Eruption Type
A Felsic High Low High Explosive
B Intermediate High Moderate Moderate Explosive
C Mafic Low High Low Effusive
D Felsic High High High Explosive
As seen in the table above, we can associate each volcano with the type of eruption it should produce or indicate whether the described characteristic is not related to eruption style.
Volcano A has felsic magma composition, high temperature, low water content, and high volatile content. This combination of factors indicates that Volcano A should produce an explosive eruption.
Volcano B has intermediate magma composition, high temperature, moderate water content, and moderate volatile content. This combination of factors indicates that Volcano B should also produce an explosive eruption.
Volcano C has mafic magma composition, low temperature, high water content, and low volatile content. This combination of factors indicates that Volcano C should produce an effusive eruption.
Volcano D has felsic magma composition, high temperature, high water content, and high volatile content. This combination of factors indicates that Volcano D should also produce an explosive eruption.
Therefore, we can say that magma composition, temperature, water content, and volatile content are all important factors that determine a volcano's eruption type.
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which natural hazard occurs more often at active plate boundaries?
Answer:
The most often occurrence is volcanos.
Two types of plates, convergent and divergent can create an active volcano site.
which methods could you use to calculate the x-coordinate of the midpoints of a horizontal line segment with endpoints at (0,0) and (20,0)?
By dividing 20 by 0 we can calculate the x-coordinate of the midpoints of a horizontal line segment with endpoints at (0,0) and (20,0).
I'll omit the "y" values from another midpoint calculation as we're only working with x coordinates right now. Although I could build the midway formula, it is much simpler to understand what it means.
The centre, which would be the average of the alignment, should always be known whenever a line's midway is determined. The same average is determined by adding the two integers and then dividing the result by two.
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which type of aggregates (igneous, sedimentary, or metamorphic) would you expect to be most suitable as a base-course material?
For a base-course material, the type of aggregate that would be the most suitable is sedimentary aggregate. This is due to its structure, which makes it stable, durable, affordable and easy to compact.
When it comes to aggregate materials, there are three main types: igneous, sedimentary, and metamorphic.
Igneous aggregates are formed from volcanic material that has been solidified. These materials are hard and durable, making them ideal for high-strength concrete and asphalt. They are also useful in railroad ballasts, building materials, and as fill for large voids in construction projects.
Sedimentary aggregates are formed from the erosion of pre-existing rock layers. This type of aggregate is the most commonly used in construction. It's known for its durability, low cost, and easy availability. Sedimentary aggregates include materials like gravel, sand, and limestone.
Metamorphic aggregates are formed by the transformation of pre-existing rocks through heat and pressure. They are the hardest and most durable. Marble, slate, and quartzite are examples of metamorphic aggregates. They are mostly used in high-strength concrete, railroad ballasts, and as fill for large voids in construction projects.
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which of the following are true of eastern boundary currents? choose all that apply. view available hint(s)for part d which of the following are true of eastern boundary currents?choose all that apply. deep, as compared to western boundary currents wide, as compared to western boundary currents they flow along the more gradual slope of the hill of water fast, as compared to western boundary currents weak, as compared to western boundary currents
.True statements about Eastern boundary currents: Eastern boundary currents refer to the currents on the eastern side of ocean basins that flow toward the equator from the poles.
The eastern boundary currents are characterized by being wide, weak, and flowing along the more gradual slope of the hill of water.True statements about Eastern boundary currents: Eastern boundary currents refer to the currents on the eastern side of ocean basins that flow toward the equator from the poles.
These currents, which are relatively shallow, are generally broader and weaker than western boundary currents.They are referred to as boundary currents because they represent the boundary between the subtropical and subpolar gyres.
Western boundary currents are known for their speed and depth, and the cold waters of the western boundary currents have a significant impact on global weather patterns. Eastern boundary currents, on the other hand, tend to be wider and weaker than their western counterparts.
Eastern boundary currents tend to flow along the more gradual slope of the hill of water, whereas western boundary currents tend to flow along the steeper slope of the hill of water. They are often accompanied by upwelling, which brings deep, nutrient-rich water to the surface, making them ideal fishing grounds.
Eastern boundary currents are characterized by being wide, weak, and flowing along the more gradual slope of the hill of water.
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which national park is home to a large volcanic caldera?Yellowstone National ParkAniakchak Caldera in Aniakchak National Monumenlake toba
Yellowstone National Park is home to a large volcanic caldera because it is situated on top of a "hot spot" in the Earth's mantle, where a column of molten rock rises from its interior towards the surface.
The correct answer is Yellowstone National Park.
This hot spot has been active for millions of years, causing volcanic activity that has led to the caldera's formation. The most recent major eruption occurred approximately 640,000 years ago, creating the current caldera, and numerous more minor eruptions have occurred since then.
Yellowstone National Park, located primarily in the US state of Wyoming, was established in 1872 and is considered the first national park in the world. The park is known for its geothermal features, such as geysers, hot springs, and mud pots, caused by volcanic activity underneath the surface.
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Nuclear reactions in main sequence stars take place ___________________________, where the gas is hot and dense.
Nuclear reactions in main sequence stars take place in their cores, where the gas is hot and dense.
What is a nuclear reaction?A nuclear reaction is a process in which atomic nuclei are modified, which changes the chemical properties of an atom. A nuclear reaction can result in the release or absorption of energy. The transmutation of nuclei, the creation of nuclei, or the splitting of nuclei are all examples of nuclear reactions. Nuclear reactions can be brought about by a variety of means, including natural radioactive decay, nuclear fission, and nuclear fusion.Nuclear reactions in main sequence stars take place in their cores, where the gas is hot and dense. In their core, high temperatures and pressures produce nuclear fusion. The process of nuclear fusion involves the conversion of hydrogen into helium, which releases a large amount of energy. This energy is responsible for the star's radiance and heat.
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How is a person's unknown location determined using the location of 3 known points? A. By calculating the ephemeris B. By determining the pseudorange C. By implementing 3D equilateration D. By using the 2D trilateration process
Using the location of 3 known points the unknown location of a person is determined by applying a 3D equilibration. Here option C is the correct answer.
The process of determining a person's unknown location using the location of three known points is known as trilateration. Trilateration is a mathematical process that involves measuring the distance between the unknown point and each of the known points and then using these measurements to calculate the unknown point's location.
Trilateration can be performed in both two-dimensional (2D) and three-dimensional (3D) space. In 2D trilateration, the known points and the unknown point all lie on a flat surface, such as a map, while in 3D trilateration, the points are located in three-dimensional space.
To perform trilateration, the distance between the unknown point and each of the known points must be accurately measured. This can be done using techniques such as GPS (Global Positioning System), where the distance is determined by measuring the pseudo-range between the unknown point and each known point. Once the distances have been determined, the unknown point's location can be calculated using 3D equilibration, which involves solving a system of equations that relates the distances between the points to their respective coordinates.
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what land extends from central mexico to costa rica?
The land that extends from central Mexico to Costa Rica is called the Mesoamerican region.
The Mesoamerican region is a cultural and geographical area in the Americas, extending from central Mexico to Costa Rica. This region is known for its rich and diverse cultural history, including the rise and fall of ancient civilizations such as the Maya, Aztec, and Olmec.
According to archeological evidence, the Mesoamerican region is considered to be one of the six cradles of civilization in the world. This region has many natural resources, such as fertile land, forests, and minerals, which made it an attractive area for early civilizations to settle and flourish.
In summary, the land that extends from central Mexico to Costa Rica is called the Mesoamerican region. This region is known for its cultural and geographical significance and was home to ancient civilizations such as the Maya, Aztec, and Olmec.
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what happens on either side of the equilibrium line in a glacier?
Answer:
Above the equilibrium line, the glacier is in the accumulation zone where there is a net gain of ice mass. On the other hand, below the equilibrium line, the glacier is in the ablation zone where there is a net loss of ice mass due to melting and calving. As the glacier moves, it erodes the land around it in two ways: by plucking and abrasion. Plucking occurs when rocks get frozen to the base, sides, and back wall of the glacier, and the movement of the glacier pulls these frozen rocks away. Abrasion occurs when rocks trapped in the glacier rub against the valley floor, wearing it away like sandpaper.
Explanation:
The glacier equilibrium line is the point of transition between the accumulation zone and the ablation zone. Above the equilibrium line, the rate of snowfall is greater than the rate of melting, so not all of the snow that falls each winter melts during the following summer, and the ice surface is always covered with snow. Therefore, the part of a glacier above the equilibrium line is where there is a net gain of ice mass. As snow gradually accumulates above the equilibrium line, it is compressed and turned into firn within which t,he snowflakes lose their delicate shapes and become granules. With more compression, the granules are pushed together and air is squeezed out. Eventually, the granules are “welded” together to create glacial ice .
Below the equilibrium line, the rate of melting is greater than the rate of snowfall, so there is a net loss of ice mass due to melting and calving. Therefore, the part of a glacier below the equilibrium line is where there is a net loss of ice mass . The position of the equilibrium line changes from year to year as a function of the balance between snow accumulation in the winter and snowmelt during the summer. More winter snow and less summer melting obviously favors the advance of the equilibrium line (and of the glacier’s leading edge), but of these two variables, it is the summer melt that matters most to a glacier’s budget .
The terminus of a glacier advances or retreats based on the location of the equilibrium line. If the rate of forward motion of the glacier is faster than the rate of ablation (melting), the leading edge of the glacier advances (moves forward). If the rate of forward motion is about the same as the rate of ablation, the leading edge remains stationary, and if the rate of forward motion is slower than the rate of ablation, the leading edge retreats (moves backward) .
1) Which is the least developed region among the following? A) North America B) Eastern Europe C) Southwest Asia D) Western and Central Europe E) East Asia.
Southwest Asia, also known as the Middle East, is considered the least developed region because it has been plagued by political instability, conflicts, and wars for several decades, severely impacting its economic growth and development.
The correct option is C.
Many countries in the region heavily rely on oil and gas exports, making them vulnerable to global oil price fluctuations. And the region has a high poverty rate, particularly in countries like Yemen, Syria, and Iraq, which have been severely impacted by conflict and displacement.
The region faces significant environmental challenges, including water scarcity, desertification, and air pollution. The region's arid climate and overuse of water resources have led to water scarcity in many areas, negatively impacting agriculture and human health.
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Please someone explain how to do this
Answer:
i just need pnts
explanation:
im sorry
What is the theory used when examining the stratigraphy in an archaeological excavation?
The theory used to examine the stratigraphy in an archaeological excavation is known as the Law of Superposition. This law states that the deeper an archaeological layer is, the older it is relative to the layers above it.
This is because the newer layers were laid down on top of the older layers, which were already in place. This law is used to help archaeologists date the different layers in an excavation, as well as to identify the relative age of artifacts that are found in the layers.
The Law of Superposition has been an invaluable tool in archaeological excavations, as it has allowed archaeologists to gain a better understanding of the past and how it evolved over time.
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select the statements that correctly describe a cause or process of spreading earth's seafloor. A. magma rising from the mantle forms new oceanic crust. B. tidal forces from the moon stretch the seafloor, slowly pulling it apart. C. rising ocean temperatures reduce the density of parts of the oceanic crust, allowing these areas to expand. D. strong ocean currents moving in opposite directions erode and thin areas of the oceanic crust. E. earth's tectonic plates move apart. F. earth's strong magnetic field forces magnetic minerals within the oceanic crust to align and separate.
The statements that correctly describe a cause or process of spreading earth's seafloor are that magma rising from the mantle forms a new oceanic crust and the earth's tectonic plates move apart. The correct options are b and e.
Divergent plate boundaries cause seafloor spreading. Heat in convection currents in the mantle makes the earth's crust more flexible and less dense as tectonic plates progressively migrate apart. Less dense material rises, generating mountains or elevated areas of the seafloor.
Tensional stress generates fractures in the lithosphere when oceanic plates diverge. The driving factor for seafloor spreading ridges was tectonic plate slab movement at subduction zones, instead of magma pressure, however magma activity is common near spreading ridges.
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Maine, Nevada, and North Dakota do not have large populations. What are some reasons for such small populations
Answer:
Explanation:
I have been to Maine several times. There are two issues about living there.They have hard winters, most of the time. Do not live there if you cannot deal with a long, hard winter. Its good if you can stay inside and write, like Stephen King.
another thing is job diversity because they rely on Lumber, fishing and other natural resources
Match the following geologic settings to the form of metamorphism which occurs at that location. A burial Mid-ocean ridge Bdynamic Mountain range core Ten miles below the surface Cdynamo- thermal Fault zone D hydrothermal Intrusion of a pluton Eshock Meteorite impact site Fthermal
A burial Mid-ocean ridge Bdynamic Mountain range core Ten miles below the floor Cdynamo- thermal Fault quarter D hydrothermal Intrusion of a pluton Eshock Meteorite impact site Fthermal.
Where does most metamorphism take place?Most metamorphic tactics take place deep underground, inside the earth's crust. During metamorphism, protolith chemistry is mildly modified with the aid of expanded temperature (heat), a kind of pressure referred to as confining pressure, and/or chemically reactive fluids.
What type of metamorphism would show up at a plate boundary the place two continents are colliding?Image end result for Match the following geologic settings to the shape of metamorphism which occurs at that location.
Regional metamorphism refers to large-scale metamorphism, such as what occurs to continental crust along convergent tectonic margins (where plates collide). The collisions result in the formation of long mountain ranges, like those alongside the western coast of North America.
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Complete the description of convergent evolution Match the terms in the left column to the appropriate blanks on the right. Terms can be used once, more than once, or not at all. Reset Help analogous features in distantly Convergent evolution is the evolution of lineages. It occurs when related organisms obtain a needs. Such resemblance is said to be that appeared convergently do not have a trait due to Therefore, species with traits dependent closely shared tralt common ancestor Independent different + similar homologous
Convergent evolution is the process of evolution in which unrelated or distantly related organisms evolve similar traits. This happens as a result of similar environmental pressures, causing the organisms to develop analogous features in order to survive.
Such resemblance is said to be homologous and is independent of any shared ancestry. Traits that appear convergently do not have a closely shared common ancestor, but are instead the result of similar needs resulting in similar traits being formed in different species.
Therefore, species with traits dependent on similar environmental pressures can develop similar characteristics, even if they are distantly related. This process helps to explain why similar features can be seen in distantly related species and helps to recognize the importance of environment over ancestry in the formation of traits.
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Which of the following statements is true?
a) A region does NOT need to be distinguishable from other areas
b) Regions exist only at some scales
c) Financial networks are not functional regions
d) A region has to be a continuous area
The statement that is true is b) Regions exist only at some scales.
What are regions ?Regions are spatial areas that share common characteristics, whether it be cultural, economic, or physical. However, the definition and boundaries of a region can vary depending on the scale of analysis.
For example, a city can be considered a region at the local scale, but when viewed from a national or global perspective, it may be just a small part of a larger region, such as a state or country. A region typically needs to be distinguishable from other areas to be meaningful and useful in analysis and decision-making.
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describe eac the 4 major types of irrigation.a.rank them from least amount of evaporative/runoff loss to most.
There are four major types of irrigation: surface irrigation, sprinkler irrigation, drip irrigation, and subsurface irrigation.
Surface Irrigation involves flooding fields with water and is the most common type of irrigation. It is less expensive than other methods, but is also the least efficient, with higher rates of water loss due to evaporation and runoff.
Sprinkler Irrigation uses a system of pipes and nozzles to spray water onto crops, allowing for more even water distribution and fewer losses due to runoff. This is the most efficient method, with the least water loss due to evaporation or runoff.
Drip Irrigation uses tubes with emitters and nozzles to slowly drip water directly to plant roots, and is the most efficient method of all with the least amount of water loss due to evaporation or runoff.
Subsurface Irrigation is similar to drip irrigation, but the water is injected directly into the soil below the crop roots, which reduces the amount of water loss due to evaporation or runoff.
From least amount of evaporative/runoff loss to most, the types of irrigation are: Drip Irrigation, Subsurface Irrigation, Sprinkler Irrigation, and Surface Irrigation.
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true or false lithofication is the process in which two plates move towards each other and the denser one slides below the other.
The statement "lithification is the process in which two plates move towards each other and the denser one slides below the other" is False because lithification refers to the process in which sediment is compacted and cemented together to form sedimentary rock.
What is lithification?Lithification is the process by which sedimentary rocks are formed. It is a transformation process that involves the compaction and cementation of sediment to produce solid rock from loose sediment. The process of lithification results in the creation of sedimentary rocks from sediments such as clay, silt, sand, and gravel.
How does lithification occur?Lithification occurs in three stages:
Compaction of Sediments - This occurs when the weight of overlying sediment squeezes the water out of the sediments beneath it. As a result, the sediment becomes denser, and the grains are packed closer together.
Cementation of Sediments - Cementation occurs when mineral crystals are deposited in the small spaces between the sediment grains, gluing them together to create solid rock.
Sedimentary Rocks - Sedimentary rocks are formed when the compacted and cemented sediment becomes hard and forms rock.
Thus, the statement, "Lithification is the process in which two plates move towards each other and the denser one slides below the other," is false.
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What are the boundaries between tectonic plates that are colliding?
Answer:
Convergent plate boundary
Explanation:
If two tectonic plates collide, they form a convergent plate boundary. Usually, one of the covering plates will move beneath the other, a process known as subduction. Deep trenches are features often formed where tectonic plates are being subducted and earthquakes are common at subduction zones as well.
according to the model in which that active galactic nuclei are powered by supermassive black holes, the energy released as light comes from
Answer:
b
Explanation:
the distinctive vertical joints seen in this basalt flow most likely formed as a consequence of which of the following?
The distinctive vertical joints seen in this basalt flow most likely formed as a consequence of thermal contraction. Thermal contraction occurs when hot molten rock cools and contracts upon cooling. As the rock cools, fractures form which create the vertical joints seen in the basalt flow.
Thermal contraction is common in basalt flows and can result in a variety of joint types, depending on the rate of cooling. As the molten rock cools, it contracts and fractures, resulting in a network of vertical and horizontal fractures, which can range in size from millimeters to centimeters. As the rock cools further, these fractures can become more pronounced, resulting in distinct vertical columns of rock.
The rate of cooling of the molten rock is a major factor in determining the size and pattern of the vertical joints in the basalt flow. If the molten rock cools quickly, it contracts more rapidly and thus more fractures form, creating a more pronounced pattern of vertical joints.
Conversely, if the molten rock cools slowly, the contraction is slower and less fractures form, resulting in a less pronounced pattern of vertical joints.
The cooling of the molten rock is also affected by the type of environment it is exposed to. Basalt flows in a temperate environment will cool at a slower rate than those exposed to a colder environment, thus producing a different pattern of vertical joints.
In conclusion, the distinctive vertical joints seen in this basalt flow most likely formed as a consequence of thermal contraction. The size and pattern of the joints is affected by the rate of cooling of the molten rock, as well as the type of environment it is exposed to.
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What happen to the surface area of exposed rock if a rock is fractured?
A) there are more pieces, but the surface area does not change
B) The surface area does not change because the volume does not change
C) The surface area increases as the rock is fractured
D) The surface area decreases as the rock is fractured
E) both a and b
The surface area increases as the rock is fractured. Therefore the correct option is option C.
Rock fracture is the mechanical breakdown of rock due to stress. The stress can be tectonic or man-made, such as blasting. When rock fractures, it breaks into smaller pieces, which are known as rock fragments or rock blocks. Rock fracture has a significant impact on the surface area of rock.
When rock is fractured, the surface area of the rock increases. This is because a single rock breaks into smaller fragments, each with its own surface area.
Therefore, the correct answer to the given question is: The surface area increases as the rock is fractured.
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the difference between renewable and nonrenewable resources is that nonrenewable resources require
Answer:
Explanation:
The difference between renewable and nonrenewable resources is that nonrenewable resources require millions of years to form and are being depleted at a faster rate than they are being replenished, while renewable resources are replenished naturally and can be sustained over time. Nonrenewable resources include fossil fuels such as coal, oil, and natural gas, as well as minerals and metals that are mined from the earth. These resources are finite and once they are depleted, they cannot be replaced. In contrast, renewable resources include solar, wind, hydro, geothermal, and biomass energy, as well as resources such as timber, water, and crops that can be regrown or replenished naturally. These resources are replenished over time and can be sustained for future generations. The use of renewable resources is seen as a more sustainable and environmentally friendly approach to resource management, as they have a lower impact on the environment and can be used indefinitely without running out.