exposed the Capitan limestone in the great rim escarpment in
Guadalupe Mountains NP. Group of answer choices
Tectonic uplifts and tilting
Massive marine transgression
Massive extraterrestrial impact

The term "insolation" is derived from the words "incoming solar radiation." It refers to the amount of solar radiation received by a surface, typically the Earth's surface.

Insolation is defined as the total amount of solar energy received per unit area over a given time, usually expressed in watts per square meter (W/m²). It represents the solar radiation that reaches the Earth's atmosphere and is available for absorption and heating of the Earth's surface.

However, it's important to distinguish insolation from the measure of the amount of sunlight reaching the surface of the Earth, which is often referred to as "solar irradiance" or "solar flux."

Solar irradiance specifically refers to the power per unit area of solar radiation incident on a surface, typically measured in watts per square meter (W/m²). It represents the intensity of solar radiation at the outermost layer of the Earth's atmosphere, known as the "top of the atmosphere" (TOA), without accounting for any absorption or scattering by the atmosphere.

In contrast, insolation takes into account the effects of the Earth's atmosphere in reducing the amount of solar radiation reaching the Earth's surface. It considers factors such as atmospheric absorption, scattering, reflection, and other interactions that occur as solar radiation passes through the atmosphere.

In summary, while solar irradiance refers to the intensity of solar radiation at the top of the atmosphere, insolation accounts for the actual amount of solar energy reaching the Earth's surface after accounting for atmospheric interactions.

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None of these options are specifically used to catch lobsters. (Option A)

The main method used to catch lobsters is through lobster traps or pots. Lobster traps are specially designed cages or containers that are baited and set on the ocean floor. Lobsters are attracted to the bait, enter the trap, and then cannot escape. Once the traps are retrieved, the lobsters are harvested. Therefore, none of the options listed (hooks and lines, purse seine, nets, gill nets) are typically used for catching lobsters.

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Meteorite is a piece of rock or metal from outer space that has survived a journey through Earth's atmosphere and landed on its surface.

Meteor is a bright streak of light that appears briefly in the sky when a meteoroid burns up in the Earth's atmosphere.

Meteoroid is a small rocky or metallic body traveling through space that is smaller than an asteroid and larger than a particle.

Asteroid is a small, rocky object that orbits the sun and can range in size from a few meters to several hundred kilometers.

Comet is a small, icy object that travels in an elliptical orbit around the sun. It consists of a nucleus made of ice and dust that vaporizes as the comet approaches the sun, creating a glowing coma and tail.

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The mobility of people and goods has significantly changed the health and well-being of nations across the globe.

Additionally, improving communication and collaboration between different nations and international organizations can help to address global health concerns.

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The Saffir-Simpson scale classifies hurricanes by B)Wind speed.

The Saffir-Simpson scale is a classification system used to categorize hurricanes based on their maximum sustained wind speeds. It provides a way to assess the intensity and potential destructive power of a hurricane. The scale consists of five categories, ranging from Category 1 (weakest) to Category 5 (strongest), with each category corresponding to a specific range of wind speeds.

While factors such as temperature, air pressure, and property damage are associated with hurricanes, the Saffir-Simpson scale specifically focuses on wind speed as the defining characteristic for classification. It provides valuable information for meteorologists, emergency managers, and the general public to understand and communicate the potential impacts and risks associated with different hurricane categories.

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Drivers on this road should be concerned because there is a risk of rockfall or landslides.

The presence of large, loose rocks exposed on the cliffs and steep slopes alongside the road indicates a potential danger for drivers. These loose rocks are susceptible to detachment and may fall onto the road, posing a risk to vehicles and their occupants. Rockfalls can be triggered by various factors such as weathering, erosion, seismic activity, or human disturbances like road construction.

The unstable nature of the exposed rocks suggests that they may become dislodged and roll down the slopes, potentially obstructing the road or causing accidents. The force and impact of a falling rock can be significant and can lead to serious injuries, vehicle damage, or even fatalities.

To ensure safety, drivers should exercise caution while driving on this road and be aware of the potential rockfall hazard. It is advisable to maintain a safe distance from the cliffs and slopes to minimize the risk of being affected by falling rocks. Authorities responsible for road maintenance should also take appropriate measures to mitigate the rockfall hazard, such as installing protective barriers, conducting regular inspections, and implementing rock stabilization techniques to secure the slopes and prevent loose rocks from falling onto the road.

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Based on the four organisms investigated in this exercise, the migration appears to have taken place earliest from the D. north to the south direction.

The reason being that the plants and animals living in the northern regions are adapted to live in colder climates.

Due to the Earth's rotation, the northern hemisphere has less direct sunlight than the southern hemisphere.

Therefore, when temperatures began to warm up after the last ice age, species were able to expand their ranges and move into new areas which were not frozen.

The organisms migrated in a southerly direction, where the temperatures were more favorable to their survival.

Thus, based on the four organisms investigated in this exercise, the migration appears to have taken place earliest from the north to the south direction.

Hence, option d. is correct.

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The advantages of using natural gas are that it is cleaner and more efficient than coal and oil. Disadvantages include its release of methane into the atmosphere and the potential for leaks.

Advantages of using natural gas include its cleaner burning compared to coal and oil, and its higher efficiency in electricity generation. It also emits less carbon dioxide, sulfur dioxide, and nitrogen oxides, which reduces air pollution. Additionally, natural gas plants are flexible and can be used to support renewable energy sources like wind and solar when the demand for electricity is high. Disadvantages of natural gas include the potential for methane leaks from pipelines and storage facilities. Methane is a potent greenhouse gas that contributes to climate change.

Extraction of natural gas through hydraulic fracturing can also result in environmental damage and contamination of water sources. Although California has made significant strides in transitioning to renewable energy sources like wind and solar, it still relies on natural gas to provide 40 percent of its electricity due to the intermittency of renewable energy sources. Natural gas plants can be used to fill in the gaps when renewable energy sources are not producing enough electricity to meet demand. However, California has set a goal to transition to 100 percent clean energy by 2045, which will require further investment in renewable energy and energy storage technologies.

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1)The presence of carbon dioxide in the atmosphere is important to weathering as it combines with water to form carbonic acid, which can chemically weather certain rocks.

2)The main products of weathering of igneous rocks are clay minerals, resulting from the chemical alteration of primary minerals.

3)Soil can be degraded if not cared for properly, leading to erosion, nutrient depletion, compaction, pollution, and loss of organic matter.

4)The velocity of moving water affects sedimentary particle transportation by carrying larger and coarser particles at higher velocities and allowing finer particles to settle at slower velocities.

5)Chert is made of microcrystalline quartz, sourced from silica-rich microorganisms. It is typically deposited in marine environments, such as deep-sea sediments or reefs.

6)Rift basins form from crustal stretching and thinning, while foreland basins result from crustal flexure due to nearby mountain loading.

7)Normal (fining upward) graded bedding originates in turbidity currents, where larger sediment settles first, followed by finer particles depositing on top.

8)In sedimentary rocks, a "formation" is defined based on lithological characteristics, stratigraphic continuity, and mappable extent.

9)Mineral stability is important to metamorphism as it determines the types of minerals that can form under specific temperature and pressure conditions.

10)Gneiss exhibits foliation characterized by alternating bands of light and dark minerals, resulting from the parallel alignment of mineral grains or segregation of different compositions.

11)Gneiss forms in high-grade metamorphic environments, involving significant heat and pressure, such as deep crustal burial or tectonic collisions.

1)The presence of carbon dioxide can chemically react with certain rocks, like limestone, and facilitate their breakdown through chemical weathering processes.

2)The main products of weathering of igneous rocks are clay minerals. These minerals result from the chemical alteration of primary minerals, such as feldspar and mica, during weathering processes.

3)Soil can be degraded if not properly cared for, leading to erosion, nutrient depletion, compaction, pollution, and loss of organic matter. These processes can reduce soil fertility, impair water drainage, decrease agricultural productivity, and disrupt ecosystem functioning.

4)The velocity of moving water affects the transportation of sedimentary particles. Higher velocities can carry larger and coarser particles, while slower velocities allow for the deposition of finer particles. Velocity also influences the sorting of sediment, with faster flows leading to better sorting and separation of particle sizes.

5)Chert  is typically sourced from the accumulation of silica-rich microorganisms like diatoms and radiolarians. Chert is commonly deposited in marine environments, such as deep-sea sediments or reefs.

6)Rift basins form due to the stretching and thinning of the Earth's crust, typically associated with divergent plate boundaries. Foreland basins, on the other hand, result from the flexure of the crust due to the loading of a nearby mountain belt, often associated with convergent plate boundaries.

7)Normal (fining upward) graded bedding is typically formed in turbidity currents. As the current slows down, larger and coarser sediment settles first, followed by finer particles depositing on top, resulting in a sequence where the grain size becomes progressively smaller upwards.

8)In sedimentary rocks represents a distinctive rock unit that can be differentiated from surrounding units and traced across a considerable area.

9) Stable minerals can undergo recrystallization and reorganization, leading to the development of new minerals and the formation of metamorphic rocks.

10)Gneiss exhibits a foliated texture characterized by alternating bands or layers of light-colored (felsic) and dark-colored (mafic) minerals. The foliation is a result of the parallel alignment of mineral grains or the segregation of different mineral compositions.

11)Gneiss conditions involve significant heat and pressure, causing the reconstitution and recrystallization of pre-existing rocks into gneissic textures and compositions.

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As warm air in the upper atmosphere migrates toward the poles (Hadley Cell), it begins to stop at approximately 30 degrees north and south latitude.

The Hadley Cell is a global atmospheric circulation pattern that plays a significant role in the Earth's climate system. In this circulation pattern, warm air rises near the equator, moves toward the poles at high altitudes, and eventually descends back to the surface at approximately 30 degrees north and south latitude.

At the equator, solar heating causes air to rise and create low-pressure conditions. This warm, rising air moves poleward in the upper atmosphere, while cooler air from higher latitudes moves toward the equator at the surface.

As the air reaches around 30 degrees north and south latitude, it starts to descend due to the increasing influence of the Coriolis effect and the conservation of angular momentum. This descending air creates high-pressure conditions and inhibits further northward or southward movement of the warm air, marking the boundary of the Hadley Cell.

Therefore, at approximately 30 degrees north and south latitude, the warm air in the upper atmosphere begins to stop and descend, leading to the formation of subtropical high-pressure systems.

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Solar energy is usually captured by plants during photosynthesis in a given ecosystem/community. The energy is transferred from one organism to another in successively higher trophic levels.

Eventually the organisms excrete wastes or die and the energy is recycled back to the producers by the decomposers. So, the correct option is c. The energy is transferred from one organism to another in successively higher trophic levels. Eventually the organisms excrete wastes or die and the energy is recycled back to the producers by the decomposers.

This transfer of energy continues in the ecosystem and is called the flow of energy.The flow of energy in an ecosystem is unidirectional, which means that it flows from the sun or producer to the decomposers. The energy is used by the living organisms to perform various life activities. It is utilized by the plants to grow and produce food. The food thus produced is consumed by animals at the next trophic level.

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The correct option is B, The most striking feature of Guadalupe Mountains NP is El Capitan Cliff, composed entirely of reef limestone.

El Capitan Cliff is the most notable landmark in Guadalupe Mountains National Park. It is a massive limestone cliff, with a height of 8,085 feet (2,464 meters), making it the highest limestone cliff in North America. The area is covered with a fossil reef, and the limestone cliffs provide a haven for wildlife. The Guadalupe Mountains are located in western Texas and southeastern New Mexico, and the park covers more than 86,000 acres of land.

El Capitan Cliff is a majestic granite monolith located in Yosemite National Park, California, USA. It stands at a staggering height of approximately 3,000 feet (900 meters) and is considered one of the world's most challenging and iconic rock formations for rock climbers. El Capitan's sheer vertical face presents a formidable challenge, attracting climbers from around the globe seeking to test their skills and endurance. The cliff is renowned for its unique geological features, including its smooth and sheer granite walls, cracks, and crevices that provide intricate climbing routes.

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The height in the atmosphere at which hail will melt is known as the melting level.

The melting level refers to the altitude or height above the ground where hailstones, which are solid balls of ice, encounter temperatures above freezing point and begin to melt.

As hailstones fall from higher levels of the atmosphere, they experience a range of temperatures. When they reach the melting level, the surrounding air temperature is high enough to cause the hailstones to transition from solid ice to liquid water.

The exact altitude of the melting level can vary depending on various atmospheric conditions, such as temperature gradients, moisture content, and the presence of other factors like cloud layers. Weather forecasters and meteorologists utilize data from weather balloons, weather radar, and other atmospheric measurements to estimate the position of the melting level.

Understanding the melting level is important in assessing the potential for severe weather events, as the melting of hailstones can contribute to heavy rainfall and localized flooding in affected areas.

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The option that best described this statement in the rock cycle that brings rock material into the Metamorphic Rock reservoir is Tectonic Uplift. Option A.

What is the Rock Cycle?

The rock cycle is a process that takes place on Earth's surface and in its crust. This is a series of geological events that convert rocks from one type to another.

There are three fundamental kinds of rocks: sedimentary, igneous, and metamorphic. The rock cycle begins with one kind of rock and ends with that same kind of rock.

Tectonic uplift is the flow in the rock cycle that brings rock material into the metamorphic rock reservoir. It is a geological process that is caused by tectonic plates pushing against one another.

However, when the rocks move toward the surface, they experience heat and pressure. This causes the rocks to change into a new form called metamorphic rocks, which form in the metamorphic rock reservoir.

Hence, the right answer is option A. Tectonic Uplift.

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The average size of the diameter of an average-sized individual in a tabulate coral colony cannot be determined as the given information does not provide any measurements or numbers.

As per the given information, Bryozoans are colonial, and each individual has a lophophore. These individuals are very small as compared to the individuals of the coral colony. Therefore, the individuals in bryozoan colonies are smaller than those in coral colonies.The size of individuals in the bryozoan colony is not given in the question. However, it is mentioned that the individuals in the bryozoan colony are very small. Therefore, the estimated size of the individuals in the bryozoan colony would be very less than the average size of individuals in a coral colony, which is not given in the question. Bryozoans are colonial aquatic animals.

Each individual in the colony has a lophophore, which is an organ surrounding the mouth and used for feeding. They are still present today and are related to the brachiopods.

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The absorption of certain wavelengths of infrared (heat) radiation by greenhouse gases in the atmosphere leads to the greenhouse effect.

The greenhouse effect occurs when greenhouse gases, such as carbon dioxide (CO2), methane (CH4), and water vapor (H2O), absorb and re-emit infrared radiation. These gases allow sunlight, primarily consisting of visible and shorter-wavelength ultraviolet (UV) light, to pass through the atmosphere and reach the Earth's surface. Once the sunlight strikes the Earth's surface, it absorbs the energy and emits longer-wavelength infrared radiation.

However, some of this infrared radiation is absorbed by greenhouse gases in the atmosphere, particularly in specific wavelength ranges where these gases are most effective at absorbing heat. This absorption traps some of the heat in the lower atmosphere, contributing to the warming of the planet. The light that is absorbed is the infrared radiation emitted by the Earth's surface.

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The option that defines delta is-A. "accumulations of sediment that form where a river enters a standing body of water."

The larger particles settle close to the river mouth, while the smaller ones are transported further out to sea.

Hence, option a. is correct.

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Ecologists describe Earth's global biogeochemical cycles as closed because matter cycles through them without leaving or entering the system.

The concept of a closed system has the idea that the earth's natural biogeochemical cycles are completed within themselves. Earth's natural biogeochemical cycles consist of the following cycles: Water cycle Nutrient cycle Oxygen cycle Carbon cycle Nitrogen cycle .The closed system means that these elements are not lost or gained in the system but are exchanged through these cycles .

Biogeochemical cycle is a process by which chemical elements are circulated between the living components of the earth (biotic component) and the non-living component (abiotic component) of the earth. The biotic components include microorganisms, plants, and animals, whereas the abiotic components include water, soil, rocks, air, and nutrients. The two types of biogeochemical cycles are gaseous and sedimentary.

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The answer is "4%."The Universe's total mass and energy content are determined by normal matter, dark matter, and dark energy.

The mass-energy equivalence formula, E=mc², expresses the relationship between mass and energy. It is the foundation of particle physics. The speed of light is used to connect mass and energy in the formula. Most of the Universe's mass-energy content is made up of dark matter and dark energy. Normal matter, on the other hand, accounts for less than 4% of the total mass-energy content of the Universe. Stars, galaxies, interstellar medium, and intergalactic medium are all examples of normal matter.

In reality, the majority of the Universe's normal matter is in the form of ionized gas. This is referred to as the intergalactic medium, and it fills the gaps between galaxies. Furthermore, normal matter accounts for only 10% of the mass of galaxies.

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The three words would you use to describe the environmental situation on Earth is Unsustainable, Precarious and Urgent.

1. Unsustainable - This describes how the current situation is unsustainable in the long term and is leading to environmental destruction, such as global warming, biodiversity loss, and air pollution.

2. Precarious - This implies that the current situation is precarious and that urgent action must be taken by individuals, organizations and governments to make a difference. If we don’t act now, further damage may be irreversible or more difficult to reverse.

3. Urgent - This word speaks to the urgency of the situation and the necessity to act quickly to avoid further damage and preserve what resources and nature we have now. It implies that we need to prioritize tackling climate change and other environmental challenges as soon as possible.

When I think of climate change I visualize a variety of effects which range from floods and extreme weather events, to the disappearance of  species due to habitat loss caused by human activities. I also think of humans having to adapt to a changing climate to manage food insecurity, water scarcity, and health risks.

On a scale from 1-5, I am very concerned about climate change, and I would rate it a 5. What concerns me most is how the effects of climate change disproportionately affect currently vulnerable populations.

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Nevado Huascaran is composed primarily of granodiorite. Based on the tectonic setting of the area, a hypothesis about how Nevada Huascaran formed is as follows.

As a result, the hypothesis is that Nevada Huascaran was formed from the melting and solidification of magma, which is due to subduction and volcanic activity caused by the Nazca Plate's descent beneath the South American Plate.

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Jet streams are narrow bands of high altitude, high speed air flow. This statement is not incorrect about jet streams. Therefore, the answer is Option B: Jet streams are narrow bands of high altitude, high speed air flow.

Jet streams are powerful currents of air that occur at high altitudes and travel west to east across the globe.

They are normally situated at 9-16 kilometers (30,000-52,000 feet) above the surface and are several hundred kilometers wide, however they may be over a thousand kilometers long and over a hundred kilometers wide. Jet streams are often classified into two categories:

The polar jet stream and the subtropical jet stream.

There are four main jet streams that vary in location and intensity based on the season and hemisphere.

They are the polar-front jet stream, the subtropical jet stream, the tropical easterly jet stream, and the polar-night jet stream.

Hence, option b. is correct.

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1) The volcanic landforms that produce felsic materials are shield volcanoes and continental calderas.

2) Felsic rocks are igneous rocks that are composed of light-colored minerals such as quartz, feldspar, and muscovite mica. These minerals are high in silicon and aluminum, hence the term felsic (an abbreviation of feldspar and silica). The magma that produces felsic rocks is typically rich in silica and low in iron and magnesium, leading to a higher viscosity that makes it more explosive when it erupts. This type of magma also tends to occur at subduction zones and continental rifts where crustal rocks are melted and assimilated into the magma.

3) Basaltic flows produce landforms such as shield volcanoes and lava plateaus, which are broad, gently sloping volcanoes with lava that flows easily and for long distances.

4) Pyroclasts, on the other hand, are more likely to be formed in explosive eruptions of felsic and intermediate magmas, which produce stratovolcanoes and calderas.

5) Pyroclastic flows are dense, fast-moving clouds of ash, rock fragments, and gas that can travel at high speeds and temperatures, causing widespread destruction in their path. They are characterized by their high velocity, high temperature, and density, as well as their ability to flow down valleys and around obstacles.

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A monsoon is a seasonal shift in the prevailing wind direction that brings with it a marked change in rainfall. In other words, monsoons are the periodic winds that bring seasonal rain.

The winter monsoon winds of Asia originate over the landmass of Siberia.

These winds move towards the low-pressure zone that forms over the high-altitude Tibetan plateau, thus creating high-pressure over the Siberian landmass.

As a result, the winds blowing from Siberia towards Asia are relatively dry and cold. This results in dry winter conditions across the Asian continent.

3. Description of the Summer Asian Monsoon Pattern

4. Precipitation in Nagpur, India

Nagpur, India receives more than 5cm of precipitation in the months of June to September. July is the month with the most precipitation.

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Crater Lake, located in Oregon, USA, is a remnant of a massive volcanic explosion that occurred 7,700 years ago. This event created a volcanic caldera, which is now Crater Lake.

To demonstrate the eruption that created Crater Lake, we need to illustrate three panels. Before the eruption, during the eruption, and after the eruption.

Panel 1: Before the eruption

Panel 2: During the eruption

Panel 3: After the eruption

Therefore, the three panels or sketches show the events before, during, and after the eruption that created Crater Lake. They include rock types, magma chamber, eruption style, eruption products, and processes that led to the caldera formation.

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Freshwater biomes differ from saltwater biomes in terms of their salinity levels and the types of organisms that inhabit them.

Freshwater biomes are characterized by low salinity levels, typically less than 1%, which means that the water contains very little salt. They include various habitats such as rivers, lakes, ponds, and wetlands. These biomes are often influenced by terrestrial ecosystems, as they receive water runoff from the surrounding land. The lack of salt in freshwater biomes allows for the survival of many types of organisms that cannot tolerate high salinity.

On the other hand, saltwater biomes, also known as marine biomes, have high salinity levels, usually around 3.5%. This salinity is due to the dissolved salts in seawater. Saltwater biomes include oceans, seas, and estuaries. They are vast and cover about 71% of the Earth's surface. The high salt concentration in these biomes presents challenges for organisms adapted to freshwater environments.

The differences in salinity have significant implications for the organisms living in freshwater and saltwater biomes. Freshwater biomes support a wide range of species such as fish, amphibians, reptiles, insects, and various plants. The lower salinity levels create a less hostile environment for these organisms, allowing them to thrive. Saltwater biomes, on the other hand, are home to marine organisms adapted to the high salt content, including fish, whales, dolphins, coral reefs, and marine plants like seaweed and algae.

In conclusion, the main difference between freshwater and saltwater biomes lies in the salinity levels and the types of organisms that can survive in each environment. Freshwater biomes have low salinity and support diverse plant and animal life, while saltwater biomes have high salinity and are home to marine species specially adapted to survive in these conditions.

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Ephemeral streams are streams which flow only part of the year. Hence, the correct option is b) flow only part of the year.

9) The formation of waves on the open ocean is primarily the result of wind.

Thus, the correct option is b) wind.

10) Tides are the result of gravitational attraction of the Earth's hydrosphere by the moon and sun. Hence, the correct option is b) gravitational attraction of the Earth's hydrosphere by the moon and sun.

11) Adding a dam to a stream can lead to flooding downstream due to the lack of sediment available. Thus, the correct option is d) flooding downstream due to the lack of sediment available.

12) Longshore transport along a shoreline is the result of waves approaching a shoreline on an angle. Hence, the correct option is d) waves approaching a shoreline on an angle.

13) The stream bed refers to the floor of a channel that has sediment moving along it. Hence, the correct option is b) the floor of a channel which has sediment moving along it.

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The statement "New York is in the Central Standard Time Zone (CST)" is not correct regarding the time zones. Time zones are geographic regions with the same standard time.

The planet is split into 24 time zones, each of which is 15 degrees of longitude wide and has its own name, letter, and UTC offset. Greenwich Mean Time (GMT) is used as the baseline for calculating time zone offsets around the world. What is the false statement about the maps and map projections? The statement "Cartographers make perfect maps by using projections" is false about maps and map projections. Maps are two-dimensional representations of the world that allow us to visually grasp complex geographic data.

Cartographers use map projections to depict the earth's three-dimensional surface on a flat piece of paper. Distortions in the distance, angles, shapes, or areas of the features on the earth's surface can occur as a result of this mapping procedure. Equidistant projections are the map projections that represent the distances accurately. Conformal projections, on the other hand, are better for navigation, because they maintain the angles between features. Projections introduce distortion into distance, angles, shapes, or areas on the maps. No map can be entirely free of these distortions, and the selection of a projection is determined by the purpose of the map.

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Some of the seedlings of Tropical Forest survive after harvesting operations because the canopy trees do not create such a deep shade and some seedlings need the presence of light in order to germinate, grow and establish.

Hence, the presence of light in the areas where the trees were harvested might facilitate the germination and establishment of some species of seedlings. Below are some more reasons:Less competition: The felled trees provide less competition for the seedlings in terms of light, water and nutrients and hence the chances of survival and establishment of seedlings increases.

Greater light: The felling of trees opens up the canopy and provides greater light penetration and hence the survival and growth rate of seedlings increases. The soil is undisturbed: Harvesting operation typically doesn't alter the soil, which means that the seedlings still have the same access to resources in the soil as they would have had before. The seeds in the soil might have been dormant and might have not had the conditions they needed to germinate and grow.

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Out of all the following types of light, gamma rays travel at the fastest speed.

Gamma rays are electromagnetic radiation that is produced by radioactive decay and nuclear reactions. Gamma rays have the highest frequency and the highest energy of all the forms of electromagnetic radiation. They have the shortest wavelength and the highest energy of any wave in the electromagnetic spectrum. They are also capable of ionizing atoms and molecules in their path

.Gamma rays can travel through any substance, including concrete and lead. They can pass through the human body and damage tissues and cells, which is why they are used in cancer treatments as radiation therapy. Gamma rays are also used in medical imaging, nuclear power plants, and in the study of outer space.

Therefore the correct option is gamma rays

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