Which geographical feature formed the northern border of the Mauryan Empire?

A. Narmada River

B. Himalaya Mountains

C. Deccan Plateau

C. Thar Desert

Answer:

1400 millon years, it is probable that if the mineral came from igneous rock, ithe rock age would be the same. There were active volcanoes 1400 year ago in proterozoic era.

Explanation:

Lifetime of radiactive compound is calculated with

[tex]ln(\frac{N_t}{N_0})=-kt[/tex] with [tex]N_t:[/tex] mass at time t, [tex]N_0:[/tex] original mass, [tex]k:[/tex]  decay constant.  

So we know that when 700 millon years pass, the half of original material decays ([tex]\frac{N_t}{N_0})=0.5[/tex]. With that information we can know k.

[tex]ln(0.5)=-k*700[/tex]  so, [tex]k=-ln(0.5)/700=0.00099[/tex]

With k, the actual and original quantity of material we can know how old is the rock:

[tex]t=-ln(\frac{N_t}{N_0})/k[/tex]  so, [tex]t=-ln(\frac{1000}{4000})/0.00099=1400 millon years[/tex]

([text]N_0=1000+3000[/text] is the actual quantity plus the quantity that decays to Pb-207)    

Answer:

Albedo is a term describing the Earth's reflection of solar radiation

Explanation:

The definition of albedo is the measurement of the reflection of solar radiation received by a planet, for instance. The problem describes the Eart. Therefore, it is the diffuse reflection of solar radiation. Since it is a reflection, it cannot be a production of radiant heat, nor it is the refraction of energy. Since it is reflected back, albedo cannot be the use of energy in biomass production either.

The description of a landscape can help us determine the type of rocks that are exposed at the surface, such as sedimentary, igneous, or metamorphic rocks.

The description of a landscape can help us determine the type of rocks that are exposed at the surface.

Sedimentary rocks, such as sandstone, shale, and limestone, can often be recognized by their distinct appearance in the landscape.

ous rocks, such as basalt and granite, form from the cooling and solidification of molten magma.

Metamorphic rocks are formed when existing rocks are altered by heat and pressure.

"The correct classification for the landscape described below is Sandstone.

The landscape described below has a characteristic appearance that can be associated with a particular type of rock. Let's analyze the description and classify the rock type:

 - The description mentions layered outcrops with visible cross-bedding. Cross-bedding is a sedimentary structure where the layers of sediment are deposited at an angle to the main bedding plane. This feature is commonly found in sandstone, which is a type of sedimentary rock composed mainly of sand-sized mineral particles or rock fragments.

 - The presence of fossilized ripples also indicates a sedimentary origin. Fossilized ripples are the remains of ancient ripples that were preserved in the sediment, suggesting that the rock formed in a water environment where ripples could develop.

 - Cliffs with varying shades of red, brown, and yellow can be associated with sandstone, as the color variations are often due to the presence of iron oxides and other minerals within the sandstone layers.

 - Evidence of weathering into rounded boulders can occur with many types of rock, but when combined with the other clues, it supports the classification as sandstone. Sandstone can weather into rounded shapes due to processes like wind erosion.

 Based on these observations, the landscape is most consistent with an exposure of sandstone at the surface. Shale is another sedimentary rock that can form layered outcrops, but it is generally finer-grained and less likely to show cross-bedding or weather into large boulders.

Limestone can also form cliffs and may contain fossils, but it is typically composed of calcium carbonate and is less likely to exhibit the range of colors described. Igneous and metamorphic rocks are usually not layered in the same way as sedimentary rocks and do not typically show cross-bedding or fossilized ripples. Therefore, the landscape is best classified as being underlain by sandstone."

Answer and Explanation:

South Africa is said to be the place rich in minerals. Regardless of its rich mineral resources and valuable minerals wealth, it is a land denied of sustenance. Destitution wins in this nation, People are denied from numerous different backgrounds. Some essential reasons are:-  

Answer:

In glaciers, North and South poles and some lakes.

Explanation:

Answer:

Active precession is a slow and a gravity induced change resulting from the orientation of the planet

Explanation:

Answer:

Mercury is considered to be most densest and Jupiter has least

Explanation:

Answer:

Moon move in 14 s = 7 arc second.

Explanation:

we know that moon mover 0.5 degree in 1 hour

In 1 hour the Moon move 0.5 degrees = 1800 arc second.

So, in 1 sec the Moon move[tex]s =\frac{1800}{3600} = 0.5\ arc\ second.[/tex]

therefore in 14 second the Moon moves

[tex] = (0.5\times 14) [/tex]

 In 14 second = 7 arc second.

Answer:

Option (2)

Explanation:

The aerosol are defined as the suspended finer solid particles or very small drops of liquid that are present in air or gas.

These aerosols can affect the climate by changing the amount of heat that is penetrated into and eliminated from the atmosphere. They are light colored and have the ability to reflect the incoming solar radiations back into the atmosphere.

This aerosols can be naturally occurring or it can be anthropogenic. Some of the natural aerosols are dust and fogs, whereas, the anthropogenic aerosols includes smoke and haze.

This has both positive and negative impact on the climate, but overall, it can be considered that the presence of these aerosols helps in the cooling of the planet as it reflects more amount of heat into the space like the clouds.

Thus, the correct answer is option (2).

Aerosols can either warm or cool the planet depending on their composition. Reflective aerosols like those from volcanic eruptions cool the planet by reflecting sunlight. However, aerosols like black carbon absorb sunlight and warm the planet, but the net effect of all aerosols is a cooling one.

The question revolves around whether aerosols warm or cool the planet. Aerosols are small particles or liquid droplets in the atmosphere. They can either absorb or reflect sunlight, with varied climate effects. Those aerosols that have a high albedo, meaning they are more reflective like particles from volcanic eruptions or sulfur emissions from burning coal, contribute to cooling the planet as they reflect sunlight back to space.

This is known as a negative forcing. However, some aerosols like black carbon (a component of soot) can absorb sunlight, which leads to warming. Broadly, the net effect of all aerosols is thought to be cooling, as they are estimated to offset about one-third of the warming caused by anthropogenic greenhouse gases. This cooling effect is significant, even though it does not cancel out all of the warming from greenhouse gas emissions.

Answer:

ITCZ does not shift much as the sun's movement is controlling the shift through the year.

Explanation:

Answer:

Option (2)

Explanation:

Glossopteris were the fossilized trees whose leaves were tongue shaped, and were about 30 meters in height. This trees were dominant in the Permian and got extinct due to the Permian-Triassic mass extinction. The fossils of this glossopteris has been found in all the continents of southern hemisphere. This provided a good evidence supporting the continental drift theory.

It was observed that the continents were all once together and now have separated and these continents are now moving at different place in different direction due to the convection current that forms in the mantle. This supports the plate tectonic theory.

Hence, the correct answer is option (2).

Pluto's density is 1.9 g/cm³, suggestive of a composition which is a blend of rocky materials and water ice. This is comparatively less than the terrestrial planets (Mercury, Venus, Earth, Mars) which have higher densities due to the presence of heavier elements, predominantly metals, in their cores.

The density of a planet is calculated by taking the mass of the planet and dividing it by its volume. Using data from the New Horizons probe, the density of Pluto, a dwarf planet, has been measured as 1.9 g/cm³. This is indicative of a composition that is a mixture of rocky materials and water ice in nearly the same proportions as many outer-planet moons, such as Callisto.

In contrast, the terrestrial planets, the four innermost planets in our solar system (Mercury, Venus, Earth, Mars), have varying densities due to their differing core compositions and sizes, but all exceed the density of Pluto. For instance, Earth is the densest of the planets, at around 5.52 g/cm³. This signifies a substantial presence of heavier elements, primarily metals, in their cores and lighter silicates near the surface. This difference in densities is crucial in determining and differentiating the attributes of terrestrial and dwarf planets.

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Answer:

The characteristic of the depositional environment affects the properties of sedimentary rocks are as follows-

(1) Lithology- It describes the constituent mineral and the type of texture these crystals have, which forms a sedimentary rock. These minerals occur in a certain depositional environment. When the weathered materials are derived and transported to some other place, then it forms a stable one in a fixed environment as the rocks are subjected to compaction and lithification, The environment in which these minerals have led to the formation of these rocks can be determined.

(2) Structure- There are various structures that occur in rock, such as ripple marks, cross-bedding that highlights the flow direction of water and wind. Many structures like slickensides, folding, faulting occurs in the sedimentary rocks that are formed due to tectonic activities. These structures can easily be identified and their environment of deposition can also be determined.

(3) Fossil content- Fossils are found to be embedded in the sedimentary rocks. The shells of organisms after death are accumulated at the bottom of the ocean. As a result of this, these shells are covered with the sediments and after millions of years, turn into fossils. For example, Sandstone, Limestone, and shale comprised of various types of shells. These fossils are found to be deposited in a shallow marine environment.

Answer:

(C) Winter solstice

Explanation:

Sydney, and all of Australia, are located in the Southern Hemisphere. This means that the changes in the seasons and the position of the sun on the sky for that matter are the opposite of the ones in the Northern Hemisphere. The summer period in the Southern Hemisphere starts on December 21st, unlike the Northern Hemisphere where it starts on June 21. The reason why the summer starts n this date is because in this period the Southern Hemisphere is more exposed to the sun, as the Earth is tilted with its southern half towards it. This resulted in higher exposure to the sun, increased temperatures because of it, and the sun being the highest on the sky during the winter solstice. On the other hand, the sun will be the lowest on the sky during the summer solstice, as the Southern Hemisphere is tilted away from the sun during that period.

Answer:

b) Nearest to the Sun

Explanation:

The four densest planet in our solar system are Earth, Venus, Mercury and Mars. Rest all planets are gas giants.

All the dense planets are near the Sun. The dense planets lie in vicinity of the Sun, whereas the less dense planets lie far  from the Sun. hence the correct answer to the question is option b) Nearest to the Sun

Answer:

Agreed

Explanation:

Answer and Explanation:

Imitating isn't proper term to use here, I think affected would be a superior wording since Roman development was to a great extent impacted by Greek human progress. We can demonstrate it by observing the similarity between both the human advancements. both developed wine and olives inspite of contrasts in territory and geography.

The specialty of both the developments additionally has loads of likenesses. However, it is additionally certain that not both expressions of the human experience are absolutely same and in this manner we ought not call it as impersonation. The reality of the situation may prove that Roman progress built up their craft with impact of Greeks however with specific alterations.

In this manner, it is certain that Roman development was impacted by the Greek progress yet it was anything but an ideal impersonation and rather an alteration in Greek human progress.

Answer:

Isomorphous substitution has a net negative charge on clay. This charge needs to be balanced as to produce a positively charged ions from the solution.

Explanation:

Final answer:

Isomorphous substitution occurs when similar cations substitute for each other in clay minerals, creating a net negative charge that results in a permanent charge on layer-silicate clay minerals.

Explanation:

Isomorphous substitution is a process whereby one cation is substituted for another of similar size and charge in the crystal lattice of a mineral, without changing the basic structure of the mineral. This process is significant in layer-silicate clay minerals. When substitution happens, for example, when [tex]Al^{3+}[/tex] replaces [tex]Sl^{4+}[/tex] in the tetrahedral layer, it causes a decrease in the overall positive charge, leading to a net negative charge on the layers. This charge is balanced by cations in the interlayer spaces.

The dominant type of charge on layer-silicate clay minerals is permanent charge, which is due to isomorphous substitution. It is permanent because it is an inherent part of the mineral's structure and not affected by pH or other environmental changes, unlike variable charges which can occur on the edges of clay particles and organic matter and can change with pH.

Answer:

Proxima Centauri is the closest star to that of the sun and being 4.22 light years away from the earth having an apparent magnitude of 12.95.

Explanation:

Answer:

A place with 45°N latitude in central Asia

Explanation:

Answer:

Oceans are an accumulation feature and alluvial fan are depositional feature

Explanation:

Answer:

Option (C)

Explanation:

The earth's axis of rotation is tilted at an angle of 23.5 degrees. This tilting has taken place due to the impact between earth and another earth-like planet. The moon resulted from this impact. This tilt plays an important role in the occurrence of seasons on earth.

If the earth was not tilted and remained the same, then it would have not experience any type of season. The conditions would have been very consistent. The equatorial region would have received maximum sunlight, as a result of which only one kind of season would be experienced throughout the year. Due to this, life would be very difficult to survive.

Thus, the tilt of the earth creates four types of seasons, such as summer, autumn, winter and spring, relative to its elliptical path where it moves around the sun.

Hence, the correct answer is option (C).

Answer:

Relation is shown below.

Explanation:

Answer:

it's aphelion distance  is 18.41 AU

Explanation:

Given data:

eccentricity 0.87

P is period of orbiting   = 79

from Kepler's third  Law.

P^2 = d^3

where P is the period of orbiting in years, and

d  it is orbit  semi-major axis in Astronomical Units

1 AU is the average distance between  earth and sun

so if P =79, we have

79^2 = d^3

6241 = d^3

d = (6241)^(1/3) = 18.41 AU

Answer:

My opinion as follows.

Explanation:

Climate change is primarily caused by human activities, leading to rising global temperatures and shrinking polar ice caps. Scientific organizations agree on the existence of climate change and its risks, though predictions for future warming vary.

Climate change is a highly debated topic among scientists and environmentalists, with a clear consensus that it is primarily caused by human activities leading to excess greenhouse gases.

Global temperatures are on the rise, and the shrinking of polar ice caps indicates the impact of these changes. However, there is variance in predictions for future warming due to factors such as aerosols, cloud feedbacks, and uncertainties around tipping points.

Scientific organizations like NASA and NOAA agree that climate change is happening and poses significant risks. Despite some disagreements on specific components, there is broad consensus that human activities are driving climate change.

Answer:

Tropospheric ozone is harmful, damaging plants and human health while ozone at the stratophere level screens out mutagenic ultraviolet radiation.

Explanation:

Ozone is dangerous and harmful in the lowest layer of the Earth's atmosphere. This layer is called troposphere. The reason why it causes damage to plants and human health it is because ozone is a reactive gas that affects plant synthesis and causes smog (a form of air pollution that is particularly dangerous to sensitive respiratory diseases such as asthma). However, ozone is helpful in the second layer of the Earth's atmosphere: the stratosphere.  It prevents and blocks dangerous ultraviolet radiation.

Answer:

Two stars (a and b) can have the same luminosity, but different surface area and temperature if the following condition is met:

(T_a^4)(R_a^2) = (T_b^4)(R_b^2)

Explanation:

The luminosity of a star is the total energy that produces in one second. It depends on the size of the star and its surface temperature.

L = σ(T^4)(4πR^2)

L is the luminosity f the star, T is the temperature of the surface of the star and R is its radius.  

Two stars can have the same luminosity if the relation between the radius and the surface temperature is maintained.  

To see this lets suposed you have 2 stars, a and b, and the luminosities of each one of them:

L_a = σ(T_a^4)(4πR_a^2)

L_b = σ(T_b^4)(4πR_b^2)

you can assume that L_a and L_b are equal:

σ(T_a^4)(4πR_a^2) = σ(T_b^4)(4πR_b^2)

Now, you can cancel the constants:

(T_a^4)(R_a^2) = (T_b^4)(R_b^2)

as long as this relation between a and b is true, then the luminosity can be the same.

Stars can have the same luminosity but different temperatures and sizes. This is because luminosity not only depends on a star's temperature, but also its size. Taking the example of the Sirius binary star system, the two stars have nearly the same temperature but differ in size, leading to very different luminosities.

Yes, it is possible for two stars to have different temperatures and different sizes but the same luminosity. Luminosity is a term used to describe the total amount of energy emitted by a star per unit of time and depends on both its size and its surface temperature. If you increase the size of a star but decrease its temperature, or increase the temperature but decrease its size, you could end up with two stars of the same luminosity but different temperatures and sizes.

For example, in the Sirius binary star system, Sirius emits 8200 times more energy than its companion despite having nearly the same temperature. This is possible because the radii of the stars differ, leading to different luminosities. This can be visualized on the Hertzsprung-Russell diagram, which shows the relationship between the temperature and luminosity of stars.

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Answer:

Option (3)

Explanation:

In a region where the temperature is high, the air gets heated up. As a result of which the air becomes warm and less dense and rises up into the atmosphere forming a low pressure zone. This air when rises up, it experiences a cooler temperature and gets cooled. This cooling allows the air mass to become dense and starts condensing. It then precipitates in the form of rainfall. This motion of air particles in the atmosphere forms a convection, that is similar to the one that forms in the mantle layer of the earth.

Thus, the warm air transfers heat forming convections.

Hence, the correct answer is option (3).

Answer:

Option (A)

Explanation:

The tropical region refers to the tropic of both the hemisphere. The tropical and the equatorial region receives a maximum amount of sunlight because the sun is directly overhead in this region. It is because of the tilting of the earth, and as a result of which the season comes into the picture. Due to this tilting of the earth and the relative position of the sun and earth, there occur four types of seasons and they are summer, autumn, winter, and spring.

Thus, the sun in these regions makes a zenith or it can be said that the sun is directly overhead in these regions.

Hence, the correct answer is option (A).

The phenomenon that only happens within the tropical latitudes is A. The Sun reaches the zenith, occurring between the Tropic of Cancer and the Tropic of Capricorn.

The correct answer to which phenomenon only happens within the tropical latitudes is A. The Sun reaches the zenith. This means that the Sun appears directly overhead at noon at least once during the year. This phenomenon only occurs between the Tropic of Cancer and the Tropic of Capricorn, the latitudinal lines that mark the boundaries of the tropics. For example, when the Sun is at the celestial equator, as seen from the equator on Earth, it passes through the zenith. Options B, C, and D are not phenomena characteristic of tropical latitudes, as the Sun neither rises in the west and sets in the east nor is it visible for 24 hours straight or fails to cross the meridian in these regions.

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Answer and Explanation:

Fossilized proof of dinosaurs have been found in various areas and have helped in thinking about there settling styles .Pale ontological looks into have demonstrated a few dinosaurs eggs covered under dried leaves and vegetation like numerous crocodiles do.But dinosaurs were additionally found to expose eggs in homes similarly as fowls.

t was discovered that the dinosaurs which where not very much grew principally laid there eggs on ground covered under certain articles to keep them warm.This insights towards a conceivable developmental connection among crocodile and birds.It was discovered that those eggs which were covered under vegetation so as to keep them warm were increasingly permeable that those which were exposed in like feathered creatures and this expanded porosity of the eggshells to encourage the trading of gases since they were covered and oxygen supply was expanded in light of the porosity of the eggshells.

Dinosaur egg fossils were found in a wide range of shapes and sizes and furthermore hues which shows assorted variety of these animals.