MONETARY POLICIES

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Monetary Policies

https://exam.pscnotes.com/monetary-policy”>Monetary Policy is the process by which the monetary authority of a country controls the supply of Money, often targeting an Inflation rate or interest rate to ensure price stability and general trust in the currency.

Objectives of Monetary Policies are:-

  • Accelerated Growth of the economy
  • Balancing saving and investments
  • Exchange rate stabilization
  • Price stability
  • EMPLOYMENT generation

Monetary Policy could be expansionary or contractionary;  Expansionary policy would increase the total Money Supply in the economy while contractionary policy would decrease the money supply in the economy.

RBI issues the Bi-Monthly monetary policy statement. The tools available with RBI to achieve the targets of monetary policy are:-

  • Bank rates
  • Reserve Ratios
  • Open Market Operations
  • Intervention in forex market
  • Moral suasion

 

Repo rate– Repo rate is the rate at which the central bank of a country (RBI in case of India) lends money to Commercial Banks in the event of any shortfall of funds. In the event of inflation, central banks increase repo rate as this acts as a disincentive for banks to borrow from the central bank. This ultimately reduces the money supply in the economy and thus helps in arresting inflation.

Reverse Repo Rate is the rate at which RBI borrows money from the commercial banks.An increase in the reverse repo rate will decrease the money supply and vice-versa, other things remaining constant. An increase in reverse repo rate means that commercial banks will get more incentives to park their funds with the RBI, thereby decreasing the Supply of Money in the market.

Cash Reserve Ratio (CRR) is a specified minimum fraction of the total deposits of customers, which commercial banks have to hold as reserves either in cash or as deposits with the central bank. CRR is set according to the guidelines of the central bank of a country.The amount specified as the CRR is held in cash and cash equivalents, is stored in bank vaults or parked with the Reserve Bank Of India. The aim here is to ensure that banks do not run out of cash to meet the payment demands of their depositors. CRR is a crucial monetary policy tool and is used for controlling money supply in an economy.

CRR specifications give greater control to the central bank over money supply. Commercial banks have to hold only some specified part of the total deposits as reserves. This is called fractional reserve Banking.

Statutory liquidity ratio (SLR) is the Indian government term for reserve requirement that the commercial banks in India require to maintain in the form of gold, government approved securities before providing credit to the customers.its the ratio of liquid assets to net demand and time liabilities.Apart from Cash Reserve Ratio (CRR), banks have to maintain a stipulated proportion of their net demand and time liabilities in the form of liquid assets like cash, gold and unencumbered securities. Treasury Bills, dated securities issued under market borrowing programme and market stabilisation schemes (MSS), etc also form part of the SLR. Banks have to report to the RBI every alternate Friday their SLR maintenance, and pay penalties for failing to maintain SLR as mandated.

Inflation & Control Mechanism

inflation is a sustained increase in the general price level of goods and Services in an economy over a period of time. When the price level rises, each unit of currency buys fewer goods and services.It is the Percentage change in the value of the Wholesale Price Index (WPI) on a year-on year basis. It effectively measures the change in the prices of a basket of goods and services in a year. In India, inflation is calculated by taking the WPI as base.

 

 

 

Formula for calculating Inflation=

(WPI in month of current year-WPI in same month of previous year)
————————————————————————————– X 100
WPI in same month of previous year

Inflation occurs due to an imbalance between demand and supply of money, changes in production and distribution cost or increase in taxes on products. When economy experiences inflation, i.e. when the price level of goods and services rises, the value of currency reduces. This means now each unit of currency buys fewer goods and services.

It has its worst impact on consumers. High prices of day-to-day goods make it difficult for consumers to afford even the basic commodities in life. This leaves them with no choice but to ask for higher incomes. Hence the government tries to keep inflation under control.

Contrary to its negative effects, a moderate level of inflation characterizes a good economy. An inflation rate of 2 or 3% is beneficial for an economy as it encourages people to buy more and borrow more, because during times of lower inflation, the level of interest rate also remains low. Hence the government as well as the central bank always strive to achieve a limited level of inflation.

Various measures of Inflation are:-

There are following types on Inflation based on their causes:-

  • Demand pull inflation
  • cost push inflation
  • structural inflation
  • speculation
  • cartelization
  • hoarding

Various control measures to curb rising inflation are:-

  • Fiscal measures like reduction in indirect taxes
  • Dual pricing
  • Monetary measures
  • Supply side measures like importing the shortage goods to meet the demand
  • Administrative measures to curb hoarding, Cratelization.

 

Global Warming

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  • An increase in the average temperature of Earth’s near surface air and oceans since the mid-20thcentury
  • 4thassessment report of IPCC: global temperature increased 74+18 degree C during the 20thcentury.
  • Caused by greenhouse gases
    • Water vapour, Co2, Methane, Nitrous Oxide, Ozone, CFCs (in order of abundance)
  • Since the industrial revolution, the burning of fossil fuels has increased the levels of Co2 in the atmosphere from 280 ppm to 390 ppm.

IPCC

  • 1988 by World Meteorological Organisation and UNEP
  • tasked with reviewing and assessing the most recent scientific, technical and socio-economic information produced worldwide relevant to the understanding of climate change
  • Nobel Prize in 2007
  • The IPCC does not carry out its own original research, nor does it do the work of monitoring climate or related phenomena itself.
  • A main activity of the IPCC is publishing special reports on topics relevant to the implementation of the (UNFCCC)
  • Till now, it has released four assessment reports (1990, 1995, 2001, 2007)
  • Fifth assessment report is due in 2014

UNFCCC

1992 at the Rio Summit.

194 members. Secretariat at Bonn.

Parties to UNFCCC are classified as:

  • Annex I countries – industrialized countries and economies in transition
  • Annex II countries – developed countries which pay for costs of developing countries
  • Developing countries.

 

Conference Place Outcome
1995 COP1 Berlin The Berlin Mandate
1996 COP2 Geneva
1997 COP3 Kyoto Kyoto Protocol
1998 COP4 Buenos Aires
1999 COP5 Bonn
2000 COP6 /2001 COP6 The Hague/Bonn CDM and Joint Implementation adopted at Bonn
2001 COP7 Marrakesh
2002 COP8 New Delhi Delhi Declaration: Calls for efforts by developed countries to transfer technology and minimize the impact of climate change on developing countries
2003 COP9 Milan
2004 COP10 Buenos Aires
2005 COP11/MOP1 Montreal
2006 COP12/MOP2 Nairobi
2007 COP13/MOP3 Bali Bali Action Plan
2008 COP14/MOP4 Poznan, Poland
2009 COP15/MOP5 Copenhagen
2010 COP16/MOP6 Cancun
2011 COP17/MOP7 Durban, South Africa

 

Tarawa Climate Change Conference

  • In the lead up to COP16, the leaders of the world’s most climate-change vulnerable countries met in Kiribati in November 2010
  • Ambo Declarationwas adopted
    • It calls for more and immediate action to be undertaken to address the causes and adverse impacts of climate change.

CoP-16/CMP-6, Cancun

COP-16 President: Patricia Espinosa, Mexico’s foreign secretary

COP-17 will be held in Durban

Issues

  • Forestry issues and reducing emissions from deforestation and forest degradation (REDD) plus
  • The developed countries are pushing for transparency from countries where they will fund climate change mitigation.
    • The assessment of carbon emission mitigation for developing countries is right now through domestic communication but is subject to international consultation and analysis. This push for transparency is a major contentious issue.
  • Fast-track finance: $ 30 bn had been committed at CoP-15. A large part of this funding is yet to come through.

 

Goals

Agreements Reached

  • The outcome of the summit was an agreement, not a binding treaty, which calls on rich countries to reduce their greenhouse gas emissions as pledged in the Copenhagen Accord, and for developing countries to plan to reduce their emissions, to limit global warming to less than 2 degrees celsius above pre-industrial levels.
  • There should be no gap between the first commitment period of the Kyoto Protocol, which expires in December 2012, and the second phase.
  • The agreement calls on the developed countries to “raise the level of ambition of the emission reductions to be achieved by them individually or jointly, with a view to reducing their aggregate level of emission of green house gases”
  • Allows flexibility in choosing the base year for setting emission reduction targets
  • Emissions trading and the project based mechanism under the KP shall continue to be available to Annex 1 parties as a means to meet their quantified emission limitation and reduction objectives.
  • The agreements recognize that in all climate change related action,human rights must be respected. They also recognise the need to engage with a broad range of stakeholders, including youth and persons with disability, and call for gender Equality and effective participation of women and indigenous people in effective action on all aspects of climate change.
  • The BASIC group softened the three demands it had before the talks began
    • Necessity of a second commitment period to the Kyoto Protocol
    • Need to accelerate disbursement under the fast start finance in the form of new and additional resources through a multilaterally supervised mechanism
    • Continued dialogue on IPRs as part of the technology development and transfer issues.
  • REDDis a part of the package and proposed mitigation actions include conservation and enhancement of forest carbon stocks and sustainable management of forests.
    • REDD is a set of steps designed to use market/financial incentives in order to reduce the emissions of greenhouse gases from deforestation and forest degradation. Its original objective is to reduce GHGs but it can deliver ‘co-benefits’ such as biodiversity conservation and poverty alleviation
    • REDD+ calls for activities with serious implication directed towards the local communities, indigenous people and forests which relate to reducing emission from deforestation and forest degradation. It goes beyond deforestation and forest degradation and includes the role of conservation, sustainable management of forests and enhancement of forest carbon stocks
  • ACancun Adaptation Framework has been proposed to strengthen and address implementation of action, and various kinds of assessments, apart from R&D and host of other issues.
  • Green Climate FundThe fund will be designed by a transitional committee, with 15 members from the developed countries and 25 from the developing nations.
  • Pledge by the developed countries to provide $100 bn annually till 2020.

 

Conclusion

  • UNFCCC secretary-generalChristian Figueres emphasised that the main achievement of the Cancun meet has been to restore some degree of faith in the multilateral process.
  • The agreements don’t mention any reduction targets.
  • Though the agreements recognize the need to reduce the GHG emissions and curb the increase in global average temperatures below 2 degrees Celsius above pre-industrial levels, in the absence of any firm target, this could be an inadequate and vague provision
  • Bolivia has rejected the agreement, saying that it won’t support agreement without binding emission cuts.
  • In a sense, the summit was both a major step forward as well as a failure
  • It was a step forward because in recent years climate change negotiations had stumbled and this meeting helped overcome that
  • It was a failure because it failed to reach an agreement for binding restrictions that are required to avert global warming.
  • There was no agreement on how to extend the Kyoto Protocol, or how the $100 billion a year for the Green Climate Fund will be raised or whether developing countries should have binding emissions reductions.

Convention on Biodiversity

  • Opened for signature at the Earth Summit in 1992 and entered into force on December 29, 1993
  • There are 193 parties. Its secretariat is based in Montreal, Canada.
  • US has signed but not ratified the treaty.
  • It is an internationallegally-binding treaty with three main goals:
    • conservationof biodiversity
    • sustainable useof biodiversity
    • fair and equitable sharingof the benefits arising from the use of genetic resources
  • Its overall objective is to encourage actions which will lead to sustainable future
  • CBD covers biodiversityat all levels: ecosystems, species and genetic resources
  • It also covers biotechnology through theCartagena Protocol on Biosafety
  • Its governing body is the Conference of Parties (COP). They meet every two years
  • TheEcosystem Approach, an integrated strategy for the management of resources, is the framework for action under the Convention
  • Precautionary principle: it states that where there is threat of significant reduction or loss of biological diversity, lack of full scientific certainty should not be used as a reason for postponing measures to avoid or minimize such threat.
  • 2010 is the International Year of Biodiversity.

COP-10 of CBD

  • Held at Nagoya, Japan in October 2010.
  • It achieved three inter-linked goals
    • Adoption of a new ten year strategic plan to save biodiversity
    • Resource mobilization strategy to increase official development assistance for biodiversity
    • A new international protocol on access to and sharing the benefits from the use of the genetic resources of the planet (Nagoya Protocol)
  • Japan Biodiversity Fund was established
  • COP-11 will take place in 2012 in India

Nagoya Protocol

  • Nagoya Protocol on Access to Genetic Resources and the Fair and Equitable Sharing of Benefits Arising from Their Utilization
  • The protocol creates a framework that balances access to genetic resources on the basis ofprior informed consent and mutually agreed terms with a fair and equitable sharing
  • Expected to enter into force in 2012
  • The Strategic Plan of CBD, which aims to arrest biodiversity loss throughout the world by 2020, will be called the Aichi Target. <Aichi is the prefecture in which Nagoya is situated>

Aichi Target

  • The Strategic Plan of the CBD or the ‘Aichi Target’ adopted by the meeting include 20 headline targets, organised under five strategic goals that address the underlying causes of biodiversity loss, reduce the pressures on biodiversity, safeguard biodiversity at all levels, enhance the benefits provided by biodiversity, and provide for capacity building.
  • The Aichi target will be the overarching framework on biodiversity not only for the biodiversity-related conventions, but for the entire UN system.
  • Some targets
    • 17 pc inland and 10 pc marine ecosystem
    • Conserving coral reefs
    • Restore 15 pc of degraded areas
    • Halve or bring to zero the rate of loss of natural habitats including forests
  • Target is that by 2020, at least 17 pc of terrestrial and inland water, and 10 pc of coastal and marine areas, especially areas of particular importance for biodiversity and ecosystem are conserved
  • The conservation is to be done through effectively and equitably managed, ecologically representative and well connected systemsof protected areas and other effective area-based conservation measures, and integrated into the wider landscapes and seascapes.

 

Kyoto Protocol

The Kyoto Protocol has put in place three flexibility mechanisms to reduce emission of Green House Gases. Although the Protocol places maximum responsibility of reducing emissions on the developed countries by committing them to specific emission targets, the three mechanisms are based on the premise that reduction of emissions in any part of the globe will have the same desired effect on the atmosphere, and also that some developed countries might find it easier and more cost effective to support emissions reductions in other developed or dev

developing countries rather than at home. These mechanisms thus provide flexibility to the Annexure I countries, helping them to meet their emission reduction obligations. Let us take a look at what these mechanisms are.

What are the three flexibility mechanisms put in place of the Kyoto Protocol for reducing GHG emission?

  • The three mechanisms are joint implementation. Emissions Trading and Clean Development

What is Joint Implementation?

  • Through the Joint Implementation, any Annex I country can invest in emission reduction projects (referred to as joint Implementation Project) in any other Annex I country as an alternative to reducing emissions domestically.
  • Two early examples are change from a wet to a dry process at a Ukraine cement works, reducing energy consumption by 53 percent by 2008-2012; and rehabilitation of a Bulgarian hydropower project, with a 267,000 ton reduction of C02 equivalent during 2008-2012.

What is Clean Development Mechanism?

  • The Clean Development Mechanism (CDM) allows-‘l developed country with an emission reduction or emission-limitation commitment under the Kyoto Protocol to implement an emission reduction project in developing countries as an alternative to more expensive emission reductions in their own countries. In exchange for the amount of reduction In emission thus achieved, the investing gets carbon credits which it can offset against its Kyoto targets. The developing country gains a Step towards sustainable development.
  • To get a CDM project registered and implemented, the investing country’ has to first take approval from the designated national authority in the host countryestablish “Additionally”, define baselines and get the project validated by a third party agency, called a Designated Operational Entity (DOE).The Executive Body of CDM registers the project and issues credits, called Certified Emission Reductions (CERs), or carbon credits, where each unit is equivalent to the reduction of one metric tonne of. C02 or its equivalent. There are more than 4200 CDM projects in the pipeline as on 14.3.2010. The expected CERs till the end of2012 is 2,900,000,000

What is “Additionality” in a CDM project ?

  • The feature of “additionality” is a crucial element of a CDM project it means that the industrialized country that is seeking to establish the CDM project in the developing country and earns carbon credits from it has to establish that the planned carbon reductions would not have occurred on its own, in the absence of the CDM project. They have to establish a baseline of the project. Which is the emission level that would have been there in the absence of the project. The difference between this baseline level and the (lower) emission level achieved as a result of the project is the carbon credit due to the investing country

What are some of the concerns regarding CDM ?

  • The risk of “false Credits” is a cause for concern with regard to CDM projects. If a project does not actually offer an additionally and the reduction in emission would have happened anyway Even without the project.

CoP15 (Copenhagen Summit)

  • Main aim was to establish a global climate agreement for the period from 2012 when the first commitment period under the Kyoto Protocol expires
  • The conference did not achieve any binding agreement for long term action
  • A ‘political accord’ was negotiated by approximately 25 parties
    • Collective commitment by developed countries for new and additional resources , including forestry and investments through international institutions to a tune of $30 bn for the period 2010-12.
  • Copenhagen Accord
    • Not legally binding and does not commit countries to agree to a binding successor to the Kyoto Protocol
    • Annex 1 parties would commit to economy-wide emissions targets for 2020 to be submitted by 31 Jan 2010. Delivery of reductions and finance by developed countries will be measured , reported and verified (MRV) in accordance with COP guidelines
    • Non-annex 1 countries would implement Nationally Appropriate Mitigation Actions to slow their carbon emissions
    • Commits $30 bn for 2010-12
    • Copenhagen Green Climate Fund
    • The accord shall be assessed in 2015

Reducing Emissions from Deforestation and Forest Degradation (REDD)

 

Reducing Emissions from Deforestation and Forest Degradation (REDD) is a set of steps designed to use market/financial incentives in order to reduce the emissions of greenhouse gases from deforestation and forest degradation. Its original objective is to reduce green house gases but it can deliver “co-benefits” such as biodiversity conservation and poverty alleviation.

REDD+ is being criticised by indigenous people and activists because it is designed to give more control over indigenous people’s forests to state forest departments, miners, companies etc resulting in violation of rights, loss of livelihoods etc.

REDD is presented as an “offset” scheme of the carbon markets and thus, will produce carbon credits. Forest degradation accounts for 15% of greenhouse gas emissions, about the same as transportation sector. Mitigation cannot be achieved without the inclusion of forests in an international regime. Hence, it is expected to play a crucial role in a future successor agreement to Kyoto Protocol.

PUBLIC FINANCE

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PUBLIC FINANCE

Public finance is the study of the role of the government in the economy. It is the branch of economics which assesses the government revenue and government expenditure of the public authorities and the adjustment of one or the other to achieve desirable effects and avoid undesirable ones.

It includes the study of :-

Fiscal policy relates to raising and expenditure of Money in quantitative and qualitative manner.Fiscal policy is the use of government spending and Taxation to influence the economy. Governments typically use fiscal policy to promote strong and sustainable Growth and reduce POVERTY. The role and objectives of fiscal policy gained prominence during the recent global economic crisis, when governments stepped in to support financial systems, jump-start growth, and mitigate the impact of the crisis on vulnerable groups.

Historically, the prominence of fiscal policy as a policy tool has waxed and waned. Before 1930, an approach of limited government, or laissez-faire, prevailed. With the stock market crash and the Great Depression, policymakers pushed for governments to play a more proactive role in the economy. More recently, countries had scaled back the size and function of government—with markets taking on an enhanced role in the allocation of goods and Services—but when the global financial crisis threatened worldwide Recession, many countries returned to a more active fiscal policy.

How does fiscal policy work?

When policymakers seek to influence the economy, they have two main tools at their disposal—Monetary Policy and fiscal policy. Central banks indirectly target activity by influencing the Money Supply through adjustments to interest rates, bank reserve requirements, and the purchase and sale of Government Securities and Foreign Exchange. Governments influence the economy by changing the level and Types of Taxes, the extent and composition of spending, and the degree and form of borrowing.

Deficit financing, practice in which a government spends more money than it receives as revenue, the difference being made up by borrowing or minting new funds.

Fiscal consolidation is a term that is used to describe the creation of strategies that are aimed at minimizing deficits while also curtailing the accumulation of more debt. The term is most commonly employed when referring to efforts of a local or national government to lower the level of debt carried by the jurisdiction, but can also be applied to the efforts of businesses or even households to reduce debt while simultaneously limiting the generation of new debt obligations. From this perspective, the goal of fiscal consolidation in any setting is to improve financial stability by creating a more desirable financial position.

The public debt is defined as how much a country owes to lenders outside of itself. These can include individuals, businesses and even other governments.public debt is the accumulation of annual budget deficits. It’s the result of years of government leaders spending more than they take in via tax revenues.

 

Tropical and temperate cyclones

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The Atmospheric Disturbances which involve a closed circulation about a low pressure centre,
anticlockwise in the northern https://exam.pscnotes.com/atmosphere”>Atmosphere and clockwise in the southern hemisphere are called
Cyclones. They fall into the following two broad categories: (a) Extra-tropical or Temperate and (b) tropical cyclones.

(a) Temperate Cyclones
Temperate cyclones are formed along a front in mid-latitudes between 35° and 65° N and S. They blow from west to east and are more pronounced in winter season.Temperate cyclones are mainly observed in Atlantic Ocean and North West Europe . They are generally extensive having a thickness of 9 to 11 kilometers and with 1040-1920 km short and long diametres respectively. Each such cyclone alternates with a high pressure anticyclone. The weather associated with the cyclone is drizzling rain and of cloudy nature for number of days. The anticyclone weather is sunny, calm and of cold waves.
(b) Tropical Cyclones
Tropical cyclones are formed along the zone of confluence of north-east and south-east trade winds. This zone is known as the Inter Tropical Convergence Zone (ITCZ). Cyclones generally occur in Mexico, South-Western and North Pacific Ocean, North Indian Ocean and South Pacific Ocean. These cyclones differ from temperate cyclones in many ways. There are no clear warm and cold
fronts as temperature seldom differs in Inter Tropical Convergence Zone. They do not have well-defined pattern of winds and are energised by convectional currents within them. Generally, these are shallow depressions and the velocity of winds is weak. These are not accompanied by Anticyclones. The arrangement of isobars is almost circular. These are not extensive and have the diametres of 160-640km. However, a few of them become very violent and cause destruction in the regions of their influence. They are called hurricanes in the Carribean Sea, typhoons in the China, Japan and phillipines,

 

 

 

 

 

 Evaporation and Condensation: dew, frost, fog, mist and cloud, rainfall types

 Evaporation 

 

Evaporation is the process of which water changes from its liquid state to gaseous form. This process takes place at all places, at all times and at all temperatures except at dew point or when the air is saturated. The rate of evaporation is affected by several factors. Important among them are as under:
(i) Accessibility of water bodies :-The rate of evaporation is higher over the Oceans than on the continents.
(ii) Temperature :-when the temperature of an air is high, it is capable of holding more moisture in its body than at a low temperature. It is because of this that the rate of evaporation is more in summers than in winters. That is why wet clothes dry faster in summers than in winters.
(iii) Air moisture :-If the relative humidity of a sample of air is high, it is capable of holding less moisture. On the other hand if the relative humidity is less, it can take more moisture. Hence, the rate of evaporation will be high. Aridity or dryness of the air also increases the rate of evaporation. During rainy days, wet clothes take more time to dry owing to the high Percentage of moisture content in the air, than on dry days.
(iv) Wind :-If there is no wind, the air which overlies a water surface will get saturated through evaporation. This evaporation will cease once saturation point is reached. However, if there is wind, it will blow that saturated or nearly saturated air away from the evaporating surface and replace it with air of lower humidity. This allows evaporation to continue as long as the wind keep blowing saturated air away and bring drier air.
(v) Cloud cover :-The cloud cover prevents solar radiation and thus influences the air temperatures at a place. This way, it indirectly controls the process of evaporation.

Condensation

Condensation the process by which water vapor (gas) in the atmosphere turns into water (liquid state). It is the opposite of evaporation. This stage is very important because it is the cloud formation stage. Cool temperatures are essential for condensation to happen, because as long as the temperature in the atmosphere is high, it can hold the water vapor and delay condensation.

When a gas is cooled sufficiently or, in many cases, when the pressure on the gas is increased sufficiently, the forces of attraction between Molecules prevent them from moving apart, and the gas condenses to either a liquid or a solid.

  • Example: Water vapor condenses and forms liquid water (sweat) on the outside of a cold glass or can.
  • Example: Liquid carbon dioxide forms at the high pressure inside a CO2 fire extinguisher.

The temperature of the air falls in two ways. Firstly, cooling occurs around very small particles of freely floating air when it comes in contact with some colder object. Secondly, loss in air temperature takes place on a massive scale due to rising of air to higher altitudes. The condensation takes place around the smoke, salt and dust particles which attract water vapour to condense around them. They are called hygroscopic nuclei. When the relative humidity of an air is high, a slight cooling is required to bring the temperature down below dew point. But when the relative humidity is low and the temperature of the air is high, a lot of cooling of the air will be necessary to bring the temperature down below dew point. Thus, condensation is directly related to the relative humidity and the rate of cooling.

here are four types of condensation and the worst period for such problems is September to May:-

  1. Surface condensation. This is the most familiar type of condensation, taking the form of water on window panes, cold wall surfaces and tiles.
  2. Interstitial condensation. This is condensation forming between walls or within the building structure.
  3. Reverse condensation. This is also called “Summer condensation”. If rains drenches a wall and strong sunlight then dries it, the heat can actually force water vapour into the wall. When it then meets an insulated surface, it forms condensation at that barrier.
  4. Radiation condensation. This is sometimes called “clear night condensation“. If there is a sudden temperature drop at night, it can cause condensation on the underside of roof coverings, for example: often this drips onto the insulation quilting and causes a distinctive mottled effect upon the quilting.

 

Dew, Frost, Fog, Mist and Cloud

Dew: When the atmospheric moisture is condensed and deposited in the form of water droplets on cooler surface of solid objects such as grass blades, leaves of Plants and trees and stones, it is termed as dew. Condensation in dew form occurs when there is clear sky, little or no wind, high relative humidity and cold long nights. These conditions lead to greater terrestrial radiation and the solid objects become cold enough to bring the temperature of air down below dew point. In this process the extra moisture of the air gets deposited on these objects. Dew is formed when dew point is above freezing point. Dew formation can be seen if the water is poured into a glass from the bottle kept in a refrigerator. The outer cold surface of the glass brings the temperature of the air in contact with the surface down below dew point and extra moisture gets deposited on the outer wall of the glass.
Frost: When the dew point is below freezing point, under above mentioned conditions, the condensation of extra moisture takes place in the form of very minute particles of ice crystals. It is called frost. In this process, the air moisture condenses directly in the form of tiny crystal of ice. This form of condensation is disastrous for standing crops such as potato, peas, pulses, grams, etc. It also creates problems for road transport system.
Mist and Fog: When condensation takes place in the air near the earth’s surface in the form of tiny droplets of water hanging and floating in the air, it is called mist. In mist the visibility is more than one kilometer and less than two kilometers. But when the visibility is reduced to less than one kilometer, it is called fog. Ideal conditions for the formation of mist and fog are clear sky, calm and cold winter nights.
Cloud: Clouds are visible aggregates of water droplets, ice particles, or a mixture of both along with varying amounts of dust particles. A typical cloud contains billions of droplets having diameters on the or- der 060.01 to 0.02 mm; yet liquid or solid water accounts for less than 10 parts per million of the cloud volume. Clouds are generally classified on the basis of their general form or appearance and alti- tude.

Rainfall types.

Precipitation or Rainfall is defined as water in liquid or solid forms falling to the earth. It happens when continuous condensation in the body of air helps the water droplets or ice crystals to grow in size and weight that the air cannot hold them and as a result these starts falling on the ground under the force of gravity.

Different types of Rainfall are:-

  • Convectional Rainfall :-Excessive heating of the earth’s surface in tropical region results in the vertical air currents. These currents, lift the warm moist air to higher strata of atmosphere. When-the temperature of such a humid air starts falling below dew point continuously, clouds are formed. These clouds cause heavy rainfall which is associated with lightning and thunder. This type of rainfall is called conventional rainfall. It is very common in equatorial region where it is a daily phenomenon in the afternoon
    (b) Orographic or Relief Rainfall :-Orographic rainfall on formed where air rises and cools because of a topographic barrier. When their temperature fall below dew point, clouds are formed. These clouds cause widespread rain on the windward slopes of the mountain range. This type of rain is called orographic rainfall. However when these winds cross over the mountain range and descend along the leeward slopes, they get warm and cause little rain. Region lying on the leeward side of the mountain receiving little rain is called rainshadow area (see figure 12.4). A famous example of orographic rainfall is Cherrapunji on the southern margin of the Khasi Hills in Meghalaya India.
    (c) Convergence or Cyclonic Rainfall:-Convergence rainfall, produced where air currents converge and rise. In tropical regions where opposing air currents have comparable temperatures, the lifting is more or less vertical and is usually accompanied by con- vention. Convectioned activity frequently occurs along fronts where the temperature of the air masses concerned are quite different. Mixing of air along the front also probably contributes to condensation and therefore to the frontal rainfall. When two large air masses of different densities and temperature meet, the warmer moist air mass is lifted above the colder one. When this happens, the rising warm air mass condenses to form clouds which cause extensive down pour. This rainfall is associated with thunder and lightning. ‘This type of rainfall is also called frontal rainfall. This type of rainfall is associated with both warm and cold fronts, (fig. 12.5) It is gener- ally steady and may persist for a whole day or even longer.

 

 

Miscellaneous Facts:

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Miscellaneous Facts:

 

  1. India’s GDP per Capita 622 (US $ PPP). It is 684 US $ for Pakistan.

 

  1. The top 3 countries with https://exam.pscnotes.com/external-debt”>External Debt are Brazil (235 billion $), China (193 billion $) & Russia (175 billion $). India is 9th with 112 billion $.

 

  1. Functional EMPLOYMENT occurs when people change from one job to another & there is an interval. This can happen even in a situation of full employment. Structural employment happens when jobs exist for qualified persons but the unemployed do not have the matching qualifications. It also occurs when labour is available, but factors of production are missing. Cyclical Unemployment arises out of cycles of Recession. Disguised Unemployment is when people are employed but their marginal productivity is zero.

 

  1. The CSO is responsible for estimating the NATIONAL INCOME. It is assisted by the National Sample Survey Organization (NSSO) which conducts large scale surveys.

 

  1. The tenth plan has taken the figure of 26% Population below POVERTY-line”>Poverty Line for planning purposes. Out of the total 75% are in rural areas & 25% in urban areas. Orissa (47.5%) has the highest proportion followed by Bihar (42.6%), M.P & Assam.

 

  1. WPI is a weighted Average of indices covering 477 commodities & is a measure of Inflation on an economy wide scale. Services do not figure in this. Base Year is 1993-94. CPI is computed separately for three groups viz industrial workers (260 commodities), Urban non-manual employees (180 commodities) & agricultural labourers (60 commodities).

 

  1. The GDP Deflator is arrived at by dividing the GDP at current prices by GDP at constant prices in terms of base year prices (1993-94). This indicates how much Growth in GDP is due to price rise & how much due to increase in output.

 

  1. In WTO terminology, subsidies in general are identified by “boxes” which are given the colours of traffic lights: green (permitted), amber (slow down — i.e. be reduced), red (forbidden). For Agriculture-notes-for-state-psc-exams”>Agriculture, all domestic support measures considered to distort production and trade (with some exceptions) fall into the amber box. In order to qualify for the “green box”, a subsidy must not distort trade, or at most cause minimal distortion. It includes amount spent on research, disease control, Infrastructure & Food Security. Blue box subsidies are held to be trade distorting & include direct payment to farmers to limit production & certain government assistance to encourage agriculture & rural development in developing countries.

 

  1. Tobin tax is the suggested tax (within 0.1% to 0.25%) on all trade of currency across borders intended to put a penalty on short-term speculation in currencies leading to crisis (Eg. Asian Crisis).

 

 

 

 

 

 

 

  1. In 1972, 107 companies operating in the general Insurance business were nationalized into four groups – NIC, United India Insurance Company, Oriental Insurance Company & New India Insurance Company with GIC as the holding company. These companies can compete against each other in all areas except aviation & crop insurance which are the monopoly of GIC.

 

  1. IRDA act 1999 has ended the monopoly of LIC/GIC in the insurance sector.

 

  1. The only two national Stock Exchanges of India are NSE & OTECI (Over the counter exchange of India). BSE is a regional stock exchange.

 

  1. At present the value of SDR is fixed in relation to a basket of five currencies – US dollar, German mark, British pound, French frank & Japanese yen.

 

  1. Current Account Convertability – the holders of domestic currency have the right to convert the currency into Foreign Exchange for any current account purpose such as travel, tourism, trade. Transactions like those in assets are not permissible unless there Capital Account convertability.

 

  1. Ceteris Paribus – ‘Other things remaining equal’. ‘Ad Valorem’ means as per value. Laffer Curve – hypothesis that when the tax rate is raised the revenue realized tends to fall. Monopsony – single buyer as opposite of monopoly where there is a single seller. Lorenz curve shows graphical representation of income distribution. The Phillips Curve illustrates the relationship between inflation and unemployment.

 

  1. Bretton Woods Agreement led to the establishment of World Bank & IMF. More developed a country greater would be its dependence on Direct Tax.

 

  1. MODVAT (modified value added tax) was introduced in India in 1986 (MODVAT was re-named as CENVAT w.e.f. 1-4-2000). Increase in RBI credit to the government during a year represents Monetised deficit.

 

  1. A high Fiscal Deficit leads to adverse effects on BoP, rise in interest rates & a high cost economy.

 

  1. The reverse Repo rate is the rate at which banks park their short-term excess liquidity with the RBI, while the repo rate is the rate at which the RBI pumps in short-term liquidity into the system

 

  1. PNB is the oldest existing commercial bank in India. India’s short term debt is less than 10 % of India’s total debt.

 

  1. The title of World Development Report 2005 is “A Better Investment Climate For Everyone”.

 

  1. The 12th financial commission recommendation would be applicable for the period 2005-2010. Minimum Alternate Tax is a tax on zero tax companies.

 

  1. Press Note 18 requires that a foreign company in a joint venture with an Indian company cannot get into other wholly owned ventures without the domestic partner’s permission.

 

 

 

 

 

 

 

  1. Domestic Commercial Banks contribute to the Rural Infrastructure Development fund to the extent of their shortfall in their lending to the priority sector lendings.

 

  1. Capital Adequacy Ratio affects assets of banks, its share capital & its investment. International Finance Corporation essentially provides loans to boost private sector investment of member countries.

 

  1. BUDGETING“>Zero-based budgeting requires that a program be justified from the ground up each fiscal year. ZBB is especially encouraged for Government budgets because expenditures can easily run out of control if it is automatically assumed what was spent last year must be spent this year

 

  1. The main source of revenue for the Union Government in ascending order of importance are Income tax, custom duties, Corporate tax & excise duties.

 

  1. Prevention of Money Laundering act is applicable to drug trafficking, mafia, gun running etc. Maintaining its increasing trend since 1990-91, except in 1998-99, the share of direct taxes in central tax revenues increased from 19.1 per cent in 1990-91 to 43.3 per cent in 2004-05 (RE) and further to 47.9 per cent 2005-06 (BE).

 

  1. Trade Related Investment measures (TRIMS) under WTO apply that no restrictions will be imposed on foreign investment in any sector; all restrictions on foreign companies will be scrapped; Imports of raw materials by foreign companies are to be allowed freely.

 

  1. Participatory Notes (P-Notes) refers to investment in Indian securities by unregulated FIIs & Hedge Funds. NCLT will replace the role of Company law board, BIFR & High courts. Fiduciary issue is the paper currency not backed by gold or silver.

 

 

Essential Extra Reference:

 

  • Various Schemes launched by the government

 

  • Capex in various sectors- telecom etc.

 

  • Export Import Value with trade in Merchandise

Composition, Structure and Stratification of the atmosphere

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An https://exam.pscnotes.com/atmosphere”>Atmosphere is a layer of gases surrounding a planet or other material body, that is held in place by the gravity of that body. Many of the planets in this Solar System have atmospheres, but none that we know of have an atmosphere quite like ours – one that can support life.

The air is a mixture of several gases. The air encompasses the earth from all sides. The air surrounding the Earth is called the atmosphere. The atmosphere is an integral part of our Earth. It is connected with the earth due to the Gravitational Force of the earth. It helps in stopping the ultra violet rays harmful for the life and maintain the suitable temperature necessary for life. The air is essential for the survival of all forms of life on the earth.

Composition of the Atmosphere

 

The atmosphere is made up of different types of gases, water vapors and dust particles. The composition of the atmosphere is not static. It changes according to the time and place.

  • Nitrogen N2  78%
  • Oxygen O2 20.9%
  • Argon Ar 9.34%
  • Carbon dioxide CO2 3.84 %
  • Neon
  • Helium
  • Methane
  • Krypton
  • Hydrogen
  • Nitrous oxide
  • Xenon
  • Ozone

Water vapor is unique in that its concentration varies from 0-4% of the atmosphere depending on where you are and what time of the day it is.  In the cold, dry artic regions water vapor usually accounts for less than 1% of the atmosphere, while in humid, tropical regions water vapor can account for almost 4% of the atmosphere.  Water vapor content is very important in predicting weather.

Greenhouse gases whose percentages vary daily, seasonally, and annually have physical and chemical properties which make them interact with solar radiation and infrared Light (heat) given off from the earth to affect the energy balance of the globe.

The atmosphere also change composition with height and can be divided into two layers. The lower layer is called the homosphere and has the composition we talked about earlier. It’s top is approximately the Mesopause.

Above the homosphere lies the heterosphere, a layer in which the gases are stratified into four shells. The lowermost shell is dominated by molecular nitrogen (N2); next, a layer of atomic oxygen (O) is encountered, followed by a layer dominated by helium atoms (He), and finally, a layer consisting of hydrogen atoms (H).

Importance of various components of atmosphere are:-

(i) Oxygen is very important for the living beings.
(ii) Carbon dioxide is very useful for the Plants.
(iii) Dust particles present in the atmosphere create suitable conditions for the Precipitation.
(iv) The amount of water vapour in the atmosphere goes on changing and directly affects the plants and living beings.
(v) Ozone protects all kinds of life on the earth from the harmful ultra violet rays of the sun.

 

Structure  and stratification of the atmosphere

Variations of temperature, pressure and density are much larger in vertical directions than in horizontal. This strong vertical variations result in the atmosphere being stratified in layers that have small horizontal variability compare to the variations in the vertical.

The atmosphere can be divided into five layers according to the diversity of temperature and density.
(a) Troposphere :-It is the lowest layer of the atmosphere. The height of this layer is about 18 kms on the equator and 8 kms on the poles. The main reason of higher height at the equator is due to presence of hot convection currents that push the gases upward.
This is the most important layer of the atmosphere because all kinds of weather changes take place only in this layer. Due to these changes development of living world take place on the earth. The air never remains static in this layer. Therefore this layer is called changing sphere or troposphere.
The environmental temperature decreases with increasing height of atmosphere. It decreases at the rate of 1 C at the height of 165 metre. This is called Normal lapse rate.
The upper limit of the troposphere is called Tropopause. This is a transitional zone. In this zone characteristics of both the troposphere and ionosphere are found.

(b) Stratosphere :-This layer lies above the troposphere and spread upto the height of 50 kms from the Earth’s surface. Its Average extent 40 kms.
The temperature remains almost the same in the lower part of this layer upto the height of 20 kms. After this the temperature increases slowly with the increase in the height. The temperature increases due to the presence of ozone gas in the upper part of this layer.
Weather related incidents do not take place in this layer. The air blows horizontally here. Therefore this layer is considered ideal for flying of aircrafts.

(c) Mesosphere :-It spreads above the stratosphere upto the height of 80 kms. from the surface of the earth. It’s extent is 30 kms. Temperature goes on decreasing and drops upto – 100 C.

(d) Ionosphere :-The ionosphere lies from about 80-400 km in height and is electrically charged as short wave solar radiation ionizes the gas Molecules. The electrical Structure of the Atmosphere is not uniform and is arranged into three layers, D, E, and F. Since the production of charged particles requires solar radiation, the thickness of each layer, particularly the D and E layers, changes from night to day. The layers weaken and disappear at night and reappear during the day. The F layer is present during both day and night. This change in height of the various electrically charged layers doesn’t effect the weather, but does effect radio signals.

The auroras also take place in the ionosphere since this is the electrically charged layer. The aurora borealis (northern lights) and aurora australis (southern lights) is closely correlated to solar flare activity.

(e) Exosphere:-This is the last layer of the atmosphere located above ionosphere and extends to beyond 400 km above the earth.  Gases are very sparse in this sphere due to the lack of gravitational force. Therefore, the density of air is very less here.

Conspiracy Cases/ Revolutionary Act

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Nasik Conspiracy Case Anant Kanhare & Ganesh Savarkar short dead collector Jackson of Nasik
  with the revolver sent by V.D. Savarkar  
Muzaffarpur Shooting 1908. Khudi Ram & Prafulla Chaki tried to bomb Kingsford, the District
  Judge of Muzaffarpur but instead his wife & daughter died.  Khudiram a
  minor was hanged & Prafulla Chaki shot himself dead.  
Delhi Conspiracy Case When Lord Hardinge was passing through a procession celebrating the
  shifting of Capital to Delhi a bomb was thrown on him. 13 people were
  arrested. Master Amir Chand, Awadh Bihari, Bal Mukund & Basant Kumar
  Biswas were hanged whereas Ram Bihari Bose succeded in fleeing to Japan.
Gadar Movement 1915 Baba Sohan Singh Bakhna (president) Lala Hardayal (secretary) and Pandit
  Kashiram (treasurer) at San Franscisco. A paper by the name of Gadar was
  also brought out by this party. Raja Mahendra Pratap even set up a
  government in exile for India’s independence at Kabul.
Lahore Conspiracy Case A raid was conducted quash the activities of Gadar revolutionaries. Bhai
1915 Parmanand was arrested. Vishnu Ganesh Pingle & Kartar Singh Sarabha
  were also arrested. Baba Sohan Singh Bakhna were transported for life.
Kakori Conspiracy Case Ram Prasad Bismil, Rajendra Lahiri, Roshan Singh & Ashfaqullah Khan
1925 (first Muslim) were hanged. Sachindranath Saynal was sentenced to life
  imprisonment. Chandra Sekhar Azad was also involved but he escaped.
Meerut Conspiracy 1929 Thirty-one Communist leaders arrested for sedition: Trial lasted 4 years
Chittagong Armoury Raid Under the Leadership of Suryasen on government armouries at Chittagong,
1930-32 Mymen Singh & Barisal. Ambika Chakraborti, Loknath Bal & Ganesh
  Ghose were prominent leaders involved. Among the girls, Kalpana Dutt,
  Preetilata Waddekar were in the forefront. A fight took place in Jalalabad
  hills where a number of revolutionaries were killed.

Urban morphology

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Urban morphology is the study of the form of human settlements and the process of their formation and transformation.Morphological studies often deal with development of forms and
pattern of the present city or other urban areas through time.

Urban morphology is the study of the physical form of a city, which consists of street patterns, building sizes and shapes, architecture, Population density and patterns of residential, commercial, industrial and other uses, among other things. Special attention is given to how the physical form of a city changes over time and to how different cities compare with each other.

India exhibits a very stable settlement structure such that much of the urban Growth that has occurred has been because of the accretion to existing towns and settlements and only marginally because of the emergence of new towns. As a result, the proportion of urban population residing in towns above a certain population cut-off point continues to increase, but there is little evidence of correlation between city size and rates of https://exam.pscnotes.com/population-growth”>Population Growth.

In other words we can state that the development of new urban centers in India has been minimal and the urban growth has been accredited to the development of existing centers.

Prof. E. Ahmad has identified some of the components of urban morphology as site characteristics, historical background, sky-line, green open spaces, and water bodies, physical and cultural dominants.

For the Census Of India 2011, the definition of urban area is as follows;

  1. All places with a Municipality, corporation, Cantonment Board or notified town area committee, etc.
  2. All other places which satisfied the following criteria: i) A minimum population of 5,000; ii) At least 75 per cent of the male main working population engaged in non-agricultural pursuits; and iii) A density of population of at least 400 persons per sq. km.

Urban centres of India are of 4 types:
1. Those that have grown from ancient town and villages e.g. Varansi, Madurai, Patna

  1. Those that have grown from medieval towns such as Lucknow, Delhi, Jaipur. These towns have lot of features of medieval Islamic architecture with palaces, minarates, walled city with Meena bazaars.
  2. Cities that have grown from the British administrative centres. Most of them were medieval towns or cantonment areas which retain lot of features of European Victorial architecture.
  3. During the post independence period a number of planned cities have been developed. Chandigarh, Bhuvneshwar, Gandhinagar, Dispur and Bokaro are some of the typical examples of planned cities.

City is a complex agglomeration of multiple activities – economic, social, cultural, etc. Its ‘central area’ also known as Central Business District is its distinct section which is identified as the centre of Marketing, business and financial activities as well as dense built-up sector where lines of transportation converge from various parts and nearly from all direction.

Broad Physical features

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Geomorphology

waves-shadow-zone-p-waves-s-waves-l-waves/”>Earth’s Interior – Earthquake Waves – Shadow Zone

Most of the knowledge we have about Earth’s deep interior comes from the fact that seismic waves penetrate the Earth and are recorded on the other side.  Earthquake ray paths and arrival times are more complex than illustrated in the animations, because velocity in the Earth does not simply increase with depth. Velocities generally increase downward, according to Snell’s Law, bending rays away from the vertical between layers on their downward journey; velocity generally decreases upward in layers, so that rays bend toward the vertical as they travel out of the Earth . Snell’s Law also dictates that rays bend abruptly inward at the mantle/outercore boundary (sharp velocity decrease in the liquid) and outward at the outer core/inner core boundary (sharp velocity increase).

Major Points to remember about P S and Love waves

  • P wave or primary wave. This is the fastest kind of seismic wave, and, consequently, the first to ‘arrive’ at a seismic station.
  • The P wave can move through solid rock and fluids, like water or the liquid layers of the earth.
  • P waves are also known as compressional waves.
  • S waveor secondary wave, which is the second wave you feel in an earthquake. An S wave is slower than a P wave and can only move through solid rock, not through any liquid medium.
  • Travelling only through the crust, https://exam.pscnotes.com/surface-waves”>Surface Wavesare of a lower frequency than body waves, and are easily distinguished on a seismogram as a result.

 

Earth’s Layers – Earth’s Composition

The Crust of Earth

It is the outermost and the thinnest layer of the earth’s surface, about 8 to 40 km thick. The crust varies greatly in thicknessand composition – as small as 5 km thick in some places beneath the Oceans, while under some mountain ranges it extendsup to 70 km in depth.

The crust is made up of two layers­ an upper lighter layer called the Sial (Silicate + Aluminium) and a lower density layer called Sima (Silicate + Magnesium).The Average density of this layer is 3 gm/cc.

The Mantle of Earth

This layer extends up to a depth of 2900 km.

Mantle is made up of 2 parts: Upper Mantle or Asthenosphere (up to about 500 km) and Lower Mantle. Asthenosphere is in a semi­molten plastic state, and it is thought that this enables the lithosphere to move about it. Within the asthenosphere, the velocity of seismic waves is considerably reduced (Called ‘Low Velocity

The line of separation between the mantle and the crust is known as Mohoviricic Discontinuity.

 

The Core of Earth

Beyond a depth of 2900 km lies the core of the earth.The outer core is 2100 km thick and is in molten form due to excessive heat out there. Inner core is 1370 km thick and is in plasticform due to the combined factors of excessive heat and pressure. It is made up of iron and nickel (Nife) and is responsible for earth’s Magnetism. This layer has the maximum specific gravity.The temperatures in the earth’s core lie between 2200°c and 2750°c. The line of separation between the mantle and the core is called Gutenberg­Wiechert Discontinuity.

 

Earth Movements – Endogenetic Movements

The interaction of matter and temperature generates these forces or movements inside the earth’s crust. The earth movements are mainly of two types: diastrophism and the Sudden Movements.

The energy emanating from within the earth is the main force behind endogenic geomorphic processes.

This energy is mostly generated by radioactivity, rotational and tidal friction and primordial heat from the origin of the earth. This energy due to geothermal gradients and heat flow from within induces diastrophism and volcanism in the lithosphere.

Diastrophism

Diastrophism is the general term applied to slow bending, folding, warping and fracturing.

Wrap == make or become bent or twisted out of shape, typically from the action of heat or damp; make abnormal; distort.

All processes that move, elevate or build up portions of the earth’s crust come under diastrophism. They include:

Orogenic processes involving mountain building through severe folding and affecting long and narrow belts of the earth’s crust;

Epeirogenic processes involving uplift or warping of large parts of the earth’s crust;

Earthquakes involving local relatively minor movements;

Plate tectonics involving horizontal movements of crustal plates.

In the process of orogeny, the crust is severely deformed into folds. Due to epeirogeny, there may be simple deformation. Orogeny is a mountain building process whereas epeirogeny is continental building process.

Through the processes of orogeny, epeirogeny, earthquakes and plate tectonics, there can be faulting and fracturing of the crust. All these processes cause pressure, volume and temperature (PVT) changes which in turn induce metamorphism of rocks.

Epeirogenic or continent forming movements

In geology, Epeirogenic movement refers to upheavals or depressions of land exhibiting long wavelengths [undulations] and little folding.

The broad central parts of continents are called cratons, and are subject to epeirogeny.

The movement is caused by a set of forces acting along an Earth radius, such as those contributing to Isostacy and Faulting in the lithosphere

Epeirogenic or continent forming movements act along the radius of the earth; therefore, they are also called radial movements. Their direction may be towards (subsidence) or away (uplift) from the center. The results of such movements may be clearly defined in the relief.

Uplift

Raised beaches, elevated wave-cut terraces, sea caves and fossiliferous beds above sea level are evidences of uplift.

Raised beaches, some of them elevated as much as 15 m to 30 m above the present sea level, occur at several places along the Kathiawar, Nellore, and Thirunelveli coasts.

Several places which were on the sea some centuries ago are now a few miles inland. For example, Coringa near the mouth of the Godavari, Kaveripattinam in the Kaveri delta and Korkai on the coast of Thirunelveli, were all flourishing sea Ports about 1,000 to 2,000 years ago.

Epeirogenic movement – uplift

Subsidence

Submerged forests and valleys as well as buildings are evidences of subsidence.

In 1819, a part of the Rann of Kachchh was submerged as a result of an earthquake.

Presence of peat and lignite beds below the sea level in Thirunelveli and the Sunderbans is an example of subsidence.

The Andamans and Nicobars have been isolated from the Arakan coast by submergence of the intervening land.

Epeirogenic movement – subsidence – arakan yomaEpeirogenic movement – subsidence – arakan yoma

On the east side of Bombay island, trees have been found embedded in mud about 4 m below low water mark. A similar submerged forest has also been noticed on the Thirunelveli coast in Tamil Nadu.

A large part of the Gulf of Mannar and Palk Strait is very shallow and has been submerged in geologically recent times. A part of the former town of Mahabalipuram near Chennai (Madras) is submerged in the sea.

Orogenic or the mountain-forming movements

Orogenic or the mountain-forming movements act tangentially to the earth surface, as in plate tectonics.

Tensions produces fissures (since this type of force acts away from a point in two directions) and compression produces folds (because this type of force acts towards a point from two or more directions). In the Landforms so produced, the structurally identifiable units are difficult to recognise.

In general, diastrophic forces which have uplifted lands have predominated over forces which have lowered them.

Orogenic- mountain-forming movements

Sudden Movements

These movements cause considerable deformation over a short span of time, and may be of two types.

Earthquake

It occurs when the surplus accumulated Stress in rocks in the earth’s interior is relieved through the weak zones over the earth’s surface in form of kinetic energy of wave motion causing vibrations (at times devastating) on the earth’s surface. Such movements may result in uplift in coastal areas.

An earthquake in Chile (1822) caused a one-metre uplift in coastal areas.

An earthquake in New Zealand (1885) caused an uplift of upto 3 metres in some areas while some areas in Japan (1891) subsided by 6 metres after an earthquake.

Earthquakes may cause change in contours, change in river courses, ‘Tsunamis’ (seismic waves created in sea by an earthquake, as they are called in Japan) which may cause shoreline changes, spectacular glacial surges (as in Alaska), landslides, Soil creeps, mass wasting etc.

Volcanoes

Volcanism includes the movement of molten rock (magma) onto or toward the earth’s surface and also formation of many intrusive and extrusive volcanic forms.

A volcano is formed when the molten magma in the earth’s interior escapes through the crust by vents and fissures in the crust, accompanied by steam, gases (hydrogen sulphide, sulphur dioxide, hydrogen chloride, carbon dioxide) and pyroclastic material. Depending on chemical composition and viscosity of the lava, a volcano may take various forms.

Pyroclastic  Adjective of or denoting rock fragments or ash erupted by a volcano, especially as a hot, dense, destructive flow.

Continental Drift Theory – Tectonics

The continental drift theory is the theory that once all the continents were joined in a super-continent, which scientists call Pangaea. Over a vast period of time, the continents drifted apart to their current locations. Alfred Wegener first supported continental drift.

Wegener’s explanation of continental drift in 1912 was that drifting occurred because of the earth’s rotation.Fossil records from separate continents, particularly on the outskirts of continents show the same species.

 

Paleomagnetism-convectional-current-theory-tectonics/”>Sea Floor Spreading – Paleomagnetism

Seafloor spreading is a process that occurs at mid-ocean ridges, where new oceanic crust is formed through volcanic activity and then gradually moves away from the ridge.

Theory of seafloor spreading was proposed by Harry Hess.

Paleomagnetism  is the study of the record of the Earth’s Magnetic Field in rocks, sediment, or archeological materials. Certain Minerals in rocks lock-in a record of the direction and intensity of the magnetic field when they form. Rocks when heated above currie point records the magnetic fields direction and preserve it for millions of years.

Plates are composed oflithosphere, about 100 km thick,that “float” on the ductile asthenosphere.

While the continents do indeed appear to drift, they do so only because they are part of larger plates that float and move horizontally on the upper mantle asthenosphere. The plates behave as rigid bodies with some ability to flex, but deformation occurs mainly along the boundaries between plates.

The plate boundaries can be identified because they are zones along which earthquakes occur.Plate interiors have much fewer earthquakes.

There are three Types of Plate Boundaries:

  1. Divergent Plate boundaries, where plates move away from each other.
  2. Convergent Plate Boundaries, where plates move toward each other.
  3. Transform Plate Boundaries, where plates slide past one another.

Divergent Plate Boundaries

These are oceanic ridges where new oceanic lithosphere is created by upwelling mantle that melts, resulting in basaltic magmas which intrude and erupt at the oceanic ridge to create new oceanic lithosphere and crust. As new oceanic lithosphere is created, it is pushed aside in opposite directions. Thus, the age of the oceanic crust becomes progressively older in both directions away from the ridge.

Because oceanic lithosphere may get subducted, the age of the ocean basins is relatively young. The oldest oceanic crust occurs farthest away from a ridge. In the Atlantic Ocean, the oldest oceanic crust occurs next to the North American and African continents and is about 160 million years old (Jurassic)

. In the Pacific Ocean, the oldest crust is also Jurassic in age, and occurs off the coast of Japan.

Because the oceanic ridges are areas of young crust, there is very little sediment accumulation on the ridges. Sediment thickness increases in both directions away of the ridge, and is thickest where the oceanic crust is the oldest. Knowing the age of the crust and the distance from the ridge, the relative velocity of the plates can be determined.

Relative plate velocities vary both for individual plates and for differentplates.

Sea floor topography is controlled by the age of the oceanic lithosphere and the rate of spreading.

If the spreading rate (relative velocity) is high, magma must be rising rapidly and the lithosphere is relatively hot beneath the ridge. Thus for fast spreading centers the ridge stands at higher elevations than for slow spreading centers. The rift valley at fast spreading centers is narrower than at slow spreading centers. As oceanic lithosphere moves away from the ridge, it cools and sinks deeper into the asthenosphere. Thus, the depth to the sea floor increases with increasing age away from the ridge.

Convergent Plate Boundaries

When a plate of dense oceanic lithosphere moving in one direction collides with a plate moving in the opposite direction, one of the plates subducts beneath the other. Where this occurs an oceanic trench forms on the sea floor and the sinking plate becomes a subduction zone. The Wadati-Benioff Zone, a zone of earthquakes located along the subduction zone, identifies a subduction zone. The earthquakes may extend down to depths of 700 km before the subducting plate heats up and loses its ability to deform in a brittle fashion.

As the oceanic plate subducts, it begins to heat up causing the release water of water into the overlying mantle asthenosphere. The water reduces the melting temperature and results in the production of magmas. These magmas rise to the surface and create a volcanic arc parallel to the trench. If the subduction occurs beneath oceanic lithosphere, an island arc is produced at the surface (such as the Japanese islands, the AleutianIslands, the Philippine islands, orthe Caribbean islands

Transform Plate Boundaries

Where lithospheric plates slide past one another in a horizontal manner, a transform fault is created. Earthquakes along such transform faults are shallow focus earthquakes.

Most transform faults occur where oceanic ridges are offset on the sea floor. Such offset occurs because spreading takes place on the spherical surface of the Earth, and some parts of a plate must be moving at a higher relative velocity than other parts One of the largest such transform boundaries occurs along the boundary of the North American and Pacific plates and is known as the San Andreas Fault. Here the transform fault cuts through continental lithosphere

Triple Junctions occur at points where thee plates meet.

Hot Spots

Areas where rising plumes of hot mantle reach the surface, usually at locations far removed from plate boundaries are called hot spots. Because plates move relative to the underlying mantle, hot spots beneath oceanic lithosphere produce a chain of volcanoes. A volcano is active while it is over the vicinity of the hot spot, but eventually plate motion results in the volcano moving away from the plume and the volcano becomes extinct and begins to erode.

Because the Pacific Plate is one of the faster moving plates, this type of volcanism produces linear chains of islands and seamounts, such as the

  • Hawaiian – Emperor chain, the Line
  • Islands, the Marshall-Ellice Islands,
  • and the Austral seamount chainMountainsClassification-continental-oceanic-precambrian-caledonian-hercynian-alpine-tectonic-mountains/”>Types of Mountains – Classification of Mountains

Development of Industries : Types of Industries;factors of industrial location, distribution and changing pattern of selected industries [iron and steel, cotton textile, sugar and petro- chemicals); Weber’s theory of industrial location-lts relevance in the modern world.

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Types of Industries

Based on the value addition and tangibility broadly we can have three types of industries – primary industries,secondary industries and tertiary industries.

  • Primary industries are usually very simple industries involving processing of raw materials to give input goods for secondary industries.
    Here value addition is usually minimal and they are
    usually material oriented.Scale of operation may be small or may be very large.Examples are: coal mining and washing, oil-refining,flour milling, Metal smelting, stone crushing, etc.
  • Secondary industries are very complex and diversified which took input from primary industries and add significant value to it in different processing stages.
    The value additions are so significant that they may have a locational preference in favour of market.Secondary industries may again divided into heavy industries, Light industries, footloose industries, etc.
  1. a) Heavy industries are identified by nature of their bulkyproduct or very high capital inputs or units which mayhave high capacity to influence Environment adversely.Examples are: heavy chemical, heavy machinery,locomotive, shipbuilding, heavy electrical, etc.
  2. b) Light industries are less capital intensive and moreinclined to consumer products.
    Products are usually lighter in weight, require lesspower, less polluting and can be established in small areas.
  3. c) Footloose industries are those industries which nearly remain indifferent with locational aspects of plant.Their products are having very high value addition and smaller in size and so transportation cost is only a small fraction of total cost.These industries usually requires a very small production space, are usually less polluting and butrequires highly skilled workers.Examples are: watch, camera, diamond cutting,precision electronics, etc.

Tertiary industries are not related to production process.They are basically trade and Services providing industries.The scale of operation is so large that it is regarded as an https://exam.pscnotes.com/industry”>Industry.Examples are: Banking industry, Insurance industry, consultancy industry, etc.

Factors of industrial location

The factors affecting the location of industries are :-

  • the availability of raw material,
  • the availability of land,
  • the availability of water,
  • the availability of labour,
  • the availability and consistency of power supply,
  • the availability of capital,
  • the availability of transport Network and market.
  •  Sometimes, the government provides incentives like subsidised power, lower transport cost and other Infrastructure so that industries may be located in backward areas.
Distribution and changing pattern of iron and steel industry

Although iron and steel manufacturing activity in India is very old, modern iron and steel industry started with the establishment of ‘Bengal Iron and Steel Works’ at Kulti in West Bengal in 1817. Tata Iron and Steel company was established at Jamshedpur in 1907. This was followed by ‘Indian Iron and Steel plant’ at Burnpur in 1919. All the three Plants were established in the private sector. The first public sector iron and steel plant, which is now known as ‘Visvesvarayya Iron and Steel works’, was established at Bhadrawati in 1923.

After independence a great focus was given for self dependence and investments were made in heavy industries. Three new integrated steel plants were established at Rourkela, Bhilai and Durgapur. Bokaro steel plant was established under public sector in 1964. Bokaro and Bhilai plants were set up with the collaboration of the former Soviet Union. Durgapur steel plant was set up in Collaboration with United Kingdom while Rourkela plant was established with the help of Germany.

The change in the spatial pattern of this industry is linked to the change in patterns of consumption, production and exchange of goods and services. This is dependent on the spatial organization and location of economic, transportation and Communication systems that produce and facilitate the trade of the concerned commodities.

Distribution and changing pattern of Cotton textile industry

The industrial development in India began with the establishment of first successful modern cotton textile mill at Mumbai in 1854.Traditional cotton textile industry could not face the competition from the new textile mills of the West, which produced cheap and good quality fabrics through mechanized industrial units. Majority of cotton textile mills are still located in the cotton growing areas of the great plains and peninsular India.

The Muslins of Dhaka, Chintzes of Masulipatnam, Calicos of Calicut and Gold-wrought cotton of Burhanpur, Surat and Vadodara were known worldwide for their quality and design. But the production of hand woven cotton textile was expensive and time consuming. Hence, traditional cotton textile industry could not face the competition from the new textile mills of the West, which produced cheap and good quality fabrics through mechanized industrial units.

Distribution and changing pattern of Sugar industry

India is the second largest producer of sugar in the world after Brazil and is also the largest consumer. Today Indian sugar industry’s annual output is worth approximately Rs.80,000 crores.Most of the sugar mills are concentrated in six states, namely Uttar Pradesh, Bihar, Maharashtra, Tamil Nadu, Karnataka and Andhra Pradesh.

Over the period, sugarcane industry is gradually shifting from north Indian states to states in Peninsular India. Some of the important reasons are as follows:

1) The production of sugarcane per hectare is higher is Peninsular India. In fact, sugarcane crop grows well in the tropical Climate of south India.

2) The sucrose contents is higher in the tropical variety of sugarcane grown in the south.

3) The crushing season in south India is longer than in north India.

4) In south India most of the mills have modern machinery.

5) Most of the mills in Peninsular India are in cooperative sector, where profit maximization is not the sole objective

Distribution and changing pattern of Petro- chemicals industry

Petro-chemicals are derived from petroleum or natural gas.Products such as Toothbrushes, toothpaste, combs, hairpins, soap cases, plastic mugs, garments, radiocaes, ball point pens, detergents, electric switches, lipstick, insecticides, bags, bed covers, and foam are some of the goods made from petro-chemicals. The share of offshore crude oil production was about 50.2%. The remaining crude oil production was from 6 States viz., Andhra Pradesh (0.7%), Arunachal Pradesh (0.2%), Assam (12.1%), Gujarat (12.5%), Rajasthan (23.7%) and Tamil Nadu (0.6%).

Besides Vadodara, Gandhar, and Hazira in Gujarat and Nagathone in Maharashtra are other important centres of petro-chemical industry. India is self sufficient in the production of petrochemicals.

Weber’s theory of industrial location-its relevance in the modern world.

Weber’s main point was that the cost of transport (another theory on this) determined the location of industry. Therefore, he uses Von Thunen’s idea (that the cost of transport determines crop selection) and applies it to industry. Similar to Von Thunen, the weight of the raw materials and the weight of the end product (this difference is known as the material index) will determine the site of production depending upon how much the industry is willing to pay to get its product to the market (connecting to Christaller’s ideas of market area). Weber’s theory rest primarily on four such sites, what he calls industrial orientations

  • Material orientation
  • Labor orientation
  • Transport orientation
  •  Market orientation

He analyzed the factors that determine the location of industry and classified these factors into two divisions. These are:

(i) Primary causes of regional distribution of industry (regional factors)

(ii) Secondary causes (agglomerative and deglomerative factors) that are responsible for redistribution of industry.

The three locational factors explained by weber in his theory of industrial location are:-

  • Transport cost
  • labour cost
  • agglomeration economies

Weber uses the location triangle within which the optimal is located based on the three locational factors.