Indian monsoon, mechanism, onset and retreat

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The word “monsoon” comes from the Arabic word mausim, meaning season.Monsoons refer to a system of winds in the tropical regions under which the direction of winds is reversed completely between the summer and the winter seasons. Under this system, the winds blow from land to sea in winter and from sea to land in summer. Therefore, most of the rainfall in the regions influenced by the monsoons is received in the summer season while winter season is generally dry.

Due to a higher temperature over the land in summer, a low pressure area develops over the continents and the winds blow from neighbouring oceans towards the land. These winds are of maritime origin and hence cause ample rainfall in summer. On the other hand, the continents become colder than the neighboring oceans in winter. As a result a high pressure area is developed
over the continents. Therefore, winds blow from land to sea in winter. These winds, being of continental origin, are dry and do not cause rain.

Role of Jet streams, Tibet Plateau and atmosphere-ocean circulation is of prime importance for the origin of Indian Monsoon.During this summer season the vertical sun rays at tropic of cancer ,the circum polar whirl along with westerly jet stream weakened and shifted northward of the Himalayas and southern branch of this jet stream disappeared by 6-10 June. This removal of westerly jet stream to the north of Tibet plateau leads to reversal of curvature of flow of free air to the north and northwest of the subcontinent. It further leads to development of dynamic depression overlying the thermal depression already established at the surface of northwest Indian subcontinent which ultimately help to trigger the burst of Indian monsoon along with it vigorous advance over the Indian subcontinent.

As long as the position of upper air jet stream is maintained above the surface low pressure to the south of the Himalayas the dynamic anticyclonic conditions persist in the northwestern part of Indian subcontinent which obstruct the ascent of air from the surface low as the air is continuously descending from the above. This is the reason why the months of April, May and June are dry inspite of high temperature and evaporation while upper air low pressure in the east of the Himalayas over Myanmar, Assam and Bangladesh helps in ascend of air and produce rainfall.

During October and November, the high pressure over northern lndia, the winds start blowing from northeast as retreating monsoons. Clear skies and the increase in mercury northern plains is observed which is termed as ‘October heat’. At this time, the low pressure conditions shift to the Bay of Bengal giving rise to cyclonic depressions. These cyclonic depressions often results in the destruction of life and property generally on the eastern coast and the southern coast. Most of the rainfall of the Coromandel Coast is derived from depressions and cyclones.

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 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.

 

Important Environmental Treaties

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 March 17, 2016 admin 0 Comments

Treaty Signed/Into force Major Points
Aarhus Convention on Access to information for public participation in decision making and access to justice in environmental matters 1998 Aarhus is a Danish city

Adopted at the fourth ministerial conference in the ‘Environment for

Europe’ process Links environmental rights and human rights

 

India – No
Vienna Convention for the protection of Ozone layer 1985/1988 Does not include legally binding reduction goals for the use of CFCs

 

At Vienna Conference
Montreal Protocol on substances that deplete the Ozone layer 1987/1989 It is a protocol to the Vienna Convention

 

“perhaps the single most successful international agreement” –

Kofi Annan

196 states ratified

Includes CFCs, HCFCs
Basel Convention on the Control of Transboundary Movements of Hazardous Wastes and their disposal 1989/1992 Particularly to prevent waste transfer from Developed to LDCs

 

175 parties

Signed but not ratified: Afghanistan, Haiti, US
Rotterdam Convention on the Prior Informed Consent Procedure for Certain Hazardous Chemicals and Pesticides in international trade 1998/2004 Rotterdam is a city in Netherlands

 

Endosulfan is proposed to be added to the list

 
Stockholm Convention on persistence organic pollutants 2001/2004 173 parties
Bamako Convention 1991/1998 On the ban on the import into Africa and the Control of movement of

Hazardous waste within Africa

Negotiated by 12 nations of Organisation of African Unity at

Bamako, Mali
 
The CBD Framework
Cartagena Protocol on Biosafety Seeks to protect biological diversity from the potential risks posed by

living modified organisms resulting from modern technology. The

Protocol applies to the transboundary movement, transit, handling and

use of all living modified organisms that may have adverse effects on

the conservation and sustainable use of biological diversity, taking also

into account risks to human health
Nagoya Protocol
For Conservation
CITES: Convention on International Trade in Endangered Species. AkaWashington Convention 1973/1975 Under IUCN. Trade in specimen should not threaten the survival of

plants and animals. Only one species under it ‘Spix Macaw’ has become

extinct in the wild.
Convention on Migratory Species aka Bonn Convention 1979/1983 To conserve terrestrial, marine and avian migratory species
Antarctic Treaty System 1959/1961 12 original members. HQ: Buenos Aires. India joined in 1983. Sets aside

Antarctica as a scientific preserve and bans military activity there. First

arms control treaty during the cold war.
International Whaling Commission 1946 Signed in Washington. Moratorium on whaling adopted in 1986.

Following countries havnt adopted the moratorium: Norway,

Iceland, Japan.
UN Convention to Combat Desertification 1994 (on the basis of Agenda 21)/1996 First and only internationally legally binding framework set up to

address the problem of desertification.

194

2006: Int. Year of Deserts and Desertification.

Non-parties: Iraq, Montenegro, Vatican

Secretariat: Rome

Meetings: 1st – Rome 1997, 9th – Buenos Aires, 2009

 

Sustainable Development

  • Bruntland Report (1983) was the first publication and recognition of the term ‘Sustainable Development’
    • “meeting the needs of the present generation without compromising the needs of the future generation”
  • Three pillarsof sustainable development (Bruntland)
    • Care and respect for People, Planet and Prosperity (Commercial Activities) <hence poverty alleviation, conservation and business development>
    • These three pillars are of equal importance
  • SD is about avalue system. It is not a scientific formula.
  • Thinking beyond pure self-gratification to awareness that harm to one will eventually be harm to all.
  • Interconnectednessand interdependence of all things
  • All three pillars have equal importance. Focus on only one of them will unbalance the whole
  • SD is a necessity, not a luxury that we can afford to miss.

Questioning Development <too detailed; at times peripheral. Be choosy>

  • Current practices must change
  • Should shatter the ‘development’ myth. Simply economic growth will not create more jobs and more wealth for all.
  • Steady-state economics. Economic growth is measured in terms of how much we produce and consume, and what we destroy in the process need not be included in the calculations.
  • 20% of the world consumes 80% of its resources
  • According to UNDP, consumption of goods and services in 1997 was twice that in 1975 and six times more than in 1950.
  • An estimated 1 billion people still do not have the means to meet their basic needs.
  • Inequalities are increasing. The assets of world’s three richest men are greater than the combined national product of 48 poorest countries.
  • Higher crime rates are associated with wider income gaps
  • Jobless growth.
  • Under-nutrition is still a huge problem among children

Economic Growth and Sustainability

  • Over-consumption has led to depletion of resources
  • Main environmental threats
    • Depletion of resources
    • Global warming
    • Expansion of waste arising from production and consumption
    • Population pressure
    • Pollution
    • Loss of biodiversity and extinction of species.
  • Green National Income Account
    • Conventional national income accounting does not capture the environmental degradation due to production and consumption
    • This omission leads to misrepresentation of improvements in social welfare
    • Since there is no market for many environmental resources, it is difficult to place monetary values on them
    • Index of Sustainable Economic Welfare: adjusts the national income to make an allowance for defensive spending (i.e. that incurred in cleaning up for pollution and other forms of environmental damage)
  • Economic Sustainability
    • Calls for reforms in the manner that we conduct our economic activity
    • Removing unfair trade barriers and subsidies that harm the environment
    • Upholding the polluter pays principle
    • Tax not on labour but on consumption <already there in the form of indirect taxes>
    • Pricing products in terms of value they have deducted from the common natural base
    • Increase resource productivity
  • Sustainable agriculture
    • Use of practices and methods to maintain/enhance the economic viability of agricultural production, natural resource base, and other ecosystems which are influenced by agricultural activities
    • Minimizing the adverse impact on the natural resources base
    • Flexible farming systems to manage the risks associated with climate and markets

Ecological Sustainability

  • Sustainable forest management
    • ‘Forest Principle’ adopted at the 1992 Rio Summit
    • In 2007, GA adopted the Non Legally Binding Instrument on All Types of Forests. The instrument is the first of its kind and is committed to promote SFM by bringing all stakeholders together
    • Ministerial Conference on Protection of Forests in Europe defined SFM as the attainment of balance between society’s increasing demands for forest products and benefits, and the preservation of forest health and diversity.
    • Forest managers must assess and integrate a wide array of sometimes conflicting factors to produce sound forest plans
    • Ecosystems approachhas been adopted by the CBD. The CBD definition of Ecosystems Approach is known as the Malawi Principles.
    • Ecosystems Approach is a strategy of management of land, water and living resources in a way that promotes conservation and sustainable use in an equitable way. Focused on use of scientific methodologies for each level of biological organisation and their interaction.
    • SFM was recognised by the parties to CBD in 2004 to be a concrete means of applying the Ecosystems Approach to forest ecosystems
  • Objectives of SFM
    • Maintain environmental stability through preservation of ecological balance that has been adversely affected due to the depletion of forest cover
    • Preserve the natural heritage of the country
    • Improve productivity of forests
    • Protecting through cooperation with local communities on the principle of Joint Forest Management
  • India
    • One of the 12 mega biodiversity countries of the world
    • National Forest Policy 1988emphasizes environmental stability and maintenance of ecological balance
    • Existing infrastructure for forest protection is inadequate
    • Surveys not carried out in many areas. Question of tribal rights
    • Protect from forest fires
  • Integrated Forest Protection Scheme
    • 10thFYP. In all States and UTs
    • Formed by merger of two 9thFYP schemes: ‘Forest Fire Control and Management’ and ‘Bridging of Infrastructure Gaps in the Forestry Sector in the North Eastern Region and Sikkim’
    • Components
      • Infrastructure development: survey and demarcation, strengthening the infrastructure for Forest Protection Division
      • Forest fire control and management
    • Implementing agencies
      • Central Component: Forest Protection Division, MoEF; Forest Survey of India, Dehradun; Central institutions like Indian Council of Forestry Research and Education (Dehradun), IIFM (Bhopal) etc shall be involved
      • State Component: Forest dept of the concerned state/UT

Social Sustainability

  • Fairness in the access to and benefits from the Earth’s resources
  • Impact of poverty on environment/Environment and poverty are related issues
  • Diverting resources to non-productive areas
  • Health and SD
    • Environment and public health are inter-related
  • Agenda 21was adopted at the UN Conference on Environment and Development (UNCED) [Earth Summit] in 1992
    • It also places particular emphasis on the need to take health considerations into account in planning for SD
  • Urbanisation
  • Need for holistic approach

Water and SD

  • Agriculture consumes nearly 70 pc of water consumption worldwide, industry -22 pc and household activities – 8 pc [WDR, 2010]
  • Geographical distribution of water: just nine countries account for 60 pc of all available freshwater supplies
  • Industrial use takes about 60 pc of water in rich countries and 10 pc in the rest.
  • Suggestions
    • Use of sea water
    • Judicial use of freshwater
    • Development of salt-resistant crops

SD in a globalising world

  • Globalisation is increasing the gap between the rich and the poor
  • It has to be steered so that it serves not only the commercial interests but social needs of development
  • Mechanisms to safeguard trade and livelihoods, especially in developing countries, must be evolved and negotiated to make globalisation an effective vehicle of SD
  • Industrialised countries must continue to assist the developing countries as well as promote trade
  • Environment and social causes must not be used selectively to erect trade barriers against developing countries

 

Population, environment and development

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The rapid pace of population growth has led to the excessive utilization of natural resources. Huge population also leads to huge production of wastes. The resultant outcomes are loss of biodiversity, pollution of air, water and soil and increased pressure on arable land. All these have been putting great stress on the environment. If you take the case of India, it supports 17 percent of world population on just 2.4 per cent of the world land area.

The earth’s carrying capacity in terms of its food resource is approaching its limits. Oceanic supply of fish, rangelands which support livestock, and the hydrological cycle to produce freshwater are strained. The backlog of unused agricultural technology is shrinking in industrial and developing countries alike, slowing the rise in cropland productivity. At the same time, soil erosion, air pollution, soil compaction, aquifer depletion, the loss of soil organic matter, and the waterlogging and salting of irrigated land are all slowing food production. At present, it appears that nothing can reverse the worldwide decline in grain output per person. The bottomline is that the world’s farmers can no longer be counted on to feed the projected additions to the present population. Attaining a humane balance between food production and population growth now depends more on family planners instead of farmers.

Mazor impact of popuatlion growth on Environment are:

  • Resource Scarcity:

– Food

– Energy (coal, oil, uranium)

– Raw materials (iron, copper, wood, water)

  • Environmental Impacts

– Soil degradation

– Deforestation

– Global Warming

Population growth would not be sustainable if it has important negative impacts that will jeopardize the ability of future generations to meet their needs.

Earthquakes

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Earthquakes occur when energy stored in elastically strained rocks is suddenly released. This release of energy causes intense ground shaking in the area near the source of the earthquake and sends waves of elastic energy, called seismic waves, throughout the Earth. Earthquakes can be generated by bomb blasts, volcanic eruptions, sudden volume changes in minerals, and sudden slippage along faults. Earthquakes are definitely a geologic hazard for those living in earthquake prone areas, but the seismic waves generated by earthquakes are invaluable for studying the interior of the Earth.

The point within the earth where the fault rupture starts is called the focus or hypocenter. This is the exact location within the earth were seismic waves are generated by sudden release of stored elastic energy.

The epicenter is the point on the surface of the earth directly above the focus. Sometimes the media get these two terms confused.

Seismic waves are the vibrations from earthquakes that travel through the Earth; they are recorded on instruments called seismographs. Seismographs record a zig-zag trace that shows the varying amplitude of ground oscillations beneath the instrument. Sensitive seismographs, which greatly magnify these ground motions, can detect strong earthquakes from sources anywhere in the world. The time, locations, and magnitude of an earthquake can be determined from the data recorded by seismograph stations.

 

Two of the most common methods used to measure earthquakes are the Richter scale and the moment magnitude scale.

The Richter scale is used to rate the magnitude of an earthquake, that is the amount of energy released during an earthquake.
The Richter scale doesn’t measure quake damage (which is done by Mercalli Scale) which is dependent on a variety of factors including population at the epicentre, terrain, depth, etc. An earthquake in a densely populated area which results in many deaths and considerable damage may have the same magnitude as a shock in a remote area that does nothing more than frightening the wildlife. Large-magnitude earthquakes that occur beneath the oceans may not even be felt by humans. Richter Scale of Earthquake Energy
The magnitude of an earthquake is determined using information gathered by a seismograph.
The Richter magnitude involves measuring the amplitude (height) of the largest recorded wave at a specific distance from the seismic source. Adjustments are included for the variation in the distance between the various seismographs and the epicentre of the earthquakes.
The Richter scale is a base-10 logarithmic scale, meaning that each order of magnitude is 10 times more intensive than the last one.

 

India in the Eighteenth Century

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Bahadur Shah 1 (1707-12)

  • Muzam succeeded Aurungzeb after latter’s death in 1707
  • He acquired the title of Bahadur Shah.
  • Though he was quite old (65) and his rule quite short there are many significant achievements he made
  • He reversed the narrow minded and antagonistic policies of Aurungzeb
  • Made agreements with Rajput states
  • Granted sardeshmukhi to Marathas but  not Chauth
  • Released Shahuji (son of Sambhaji) from prison (who later fought with Tarabai)
  • Tried to make peace with Guru Gobind Sahib by giving him a high Mansab. After Guru’s death, Sikhs again revolted under the leadership of Banda Bahadur. This led to a prolonged war with the Sikhs.
  • Made peace with Chhatarsal, the Bundela chief and Churaman, the Jat chief.
  • State finances deteriorated

Jahandar Shah (1712-13)

  • Death of Bahadur Shah plunged the empire into a civil war
  • A noted feature of this time was the prominence of the nobles
  • Jahandar Shah, son of Bahadur Shah, ascended the throne in 1712 with help from Zulfikar Khan
  • Was a weak ruler devoted only to pleasures
  • Zulfikar Khan, his wazir, was virtually the head of the administration
  • ZK abolished jizyah
  • Peace with Rajputs: Jai Singh of Amber was made the Governor of Malwa. Ajit Singh of Marwar was made the Governor of Gujarat.
  • Chauth and Sardeshmukh granted to Marathas. However, Mughals were to collect it and then hand it over to the Marathas.
  • Continued the policy of suppression towards Banda Bahadur and Sikhs
  • Ijarah: (revenue farming) the government began to contract with revenue farmers and middlemen to pay the government a fixed amount of money while they were left free to collect whatever they could from the peasants
  • Jahandhar Shah defeated in January 1713 by his nephew Farrukh Siyar at Agra

Farrukh Siyar (1713-19)

  • Owed his victory to Saiyid Brothers: Hussain Ali Khan Barahow and Abdullah Khan
  • Abdullah Khan: Wazir,                    Hussain Ali: Mir Bakshi
  • FS was an incapable ruler. Saiyid brothers were the real rulers.
  • Saiyid Brothers
    • Known the Indian History as King Makers
    • adopted the policy of religious tolerance. Abolished jizyah (again?). Pilgrim tax was abolished from a number of places
    • Marathas: Granted Shahuji swarajya and the right to collect chauth and sardeshmukhi of the six provinces of the Deccan
    • They failed in their effort to contain rebellion because they were faced with constant political rivalry, quarrels and conspiracies at the court.
    • Nobles headed by Nizam-ul-Mulk and Muhammad Amin Khan began to conspire against them
    • In 1719, the Saiyid Brothers killed and overthrew FS.
    • This was followed by placing, in quick succession, of two young princes who died of consumption
    • Murder of the emperor created a wave of revulsion against the SB. They were looked down as ‘namak haram’
  • Now, they placed 18 year old Muhammad Shah as the emperor of India
  • In 1720, the nobles assassinated Hussain Ali Khan, the younger of the SB. Abdullah Khan was also defeated at Agra

Muhammad Shah ‘Rangeela’ (1719-1748)

  • Weak-minded, frivolous and over-fond of a life of ease
  • Neglected the affairs of the state
  • Intrigued against his own ministers
  • Naizam ul Mulk Qin Qulich Khan, the wazir, relinquished his office and founded the state of Hyderabad in 1724
    • “His departure was symbolic of the flight of loyalty and virtue from the Empire”
  • Heriditary nawabs arose in Bengal, Hyderabad, Awadh and Punjab
  • Marathas conquered Malwa, Gujarat and Bundelkhand
  • 1738: Invasion of Nadir Shah

 

Nadir Shah’s Invasion (1738)

  • Attracted to India by its fabulous wealth. Continual campaigns had made Persia bankrupt
  • Also, the Mughal empire was weak.
  • Didn’t meet any resistance as the defense of the north-west frontier had been neglected for years
  • The two armies met at Karnal on 13th Feb 1739. Mughal army was summarily defeated. MS taken prisoner
  • Massacre in Delhi in response to the killing of some of his soldiers
  • Plunder of about 70 crore rupees. Carried away the Peacock throne and Koh-i-noor
  • MS ceded to him all the provinces of the Empire west of the river Indus
  • Significance: Nadir Shah’s invasion exposed the hidden weakness of the empire to the Maratha sardars and the foreign trading companies

Ahmed Shah Abdali

  • One of the generals of Nadir Shah
  • Repeatedly invaded and plundered India right down to Delhi and Mathura between 1748 and 1761. He invaded India five times.
  • 1761: Third battle of Panipat. Defeat of Marathas.
  • As a result of invasions of Nadir Shah and Ahmed Shah, the Mughal empire ceased to be an all-India empire. By 1761 it was reduced merely to the Kingdom of Delhi

Shah Alam II (1759-

  • Ahmed Bahadur (1748-54) succeeded Muhammad Shah
  • Ahmed Bahadur was succeeded by Alamgir II (1754-59)
    • 1756: Abdali plundered Mathura
  • Alamgir II was succeeded by Shah Jahan III
  • Shah Jahan III succeeded by Shah Alam II in 1759
  • Shah Alam spent initial years wandering for he lived under the fear of his wazir
  • In 1764, he joined forces with Mir Qasim of Bengal and Shuja-ud-Daula of Awadh in declaring a war upon the British East India company. This resulted in the Battle of Buxar
  • Pensioned at Allahabad
  • Returned to Delhi in 1772 under the protection of Marathas

Decline of the Mughal Empire

  • After 1759, Mughal empire ceased to be a military power.
  • It continued from 1759 till 1857 only due to the powerful hold that the Mughal dynasty had on the minds of the people of India as a symbol of the political unity of the country
  • In 1803, the British occupied Delhi
  • From 1803 to 1857, the Mughal emperors merely served as a political front of the British.
  • The most important consequence of the fall of the Mughal empire was that it paved way for the British to conquer India as there was no other Indian power strong enough to unite and hold India.

Succession States

  • These states arose as a result of the assertion of autonomy by governors of Mughal provinces with the decay of the central power
  • Bengal, Awadh, Hyderabad

Hyderabad and the Carnatic

  • Founded by Nizam-ul-Mulk Asaf Jah in 1724
  • Tolerant policy towards Hindus
    • A Hindu, Puran Chand, was his Dewan.
  • Established an orderly administration in Deccan on the basis of the jagirdari system on the Mughal pattern
  • He died in 1748
  • Nawab of Carnatic freed himself of the control of the Viceroy of the Deccan and made his office hereditary
    • Saadutullah Khan of Carnatic made his nephew Dost Ali his successor

Bengal

  • 1700: Murshid Quli Khan made the Dewan of Bengal
  • Freed himself of the central control
  • Freed Bengal of major uprisings
    • Three major uprisings during his time: Sitaram Ray, Udai Narayan and Ghulam Muhammad, and then by Shujat Khan, and finally by Najat Khan
  • Carried out fresh revenue settlement. Introduced the system of revenue-farming.
  • Revenue farming led to the increased distress of the farmers
  • Laid the foundations of the new landed aristocracy in Bengal
  • MQK died in 1727. Succeeded by Shuja-ud-din.
  • 1739: Alivardi Khan killed and deposed Shuja-ud-din’s son, Sarfaraz Khan, and made himself the Nawab
  • All three Nawabs encouraged merchants, both Indian and foreign.
  • Safety of roads and rivers. Thanas and Chowkies at regular intervals.
  • Maintained strict control over the foreign trading companies
  • They, however, did not firmly put down the increasing tendency of the English East India Company to use military force, or to threaten its use, to get its demands accepted.
  • They also neglected to build a strong army

Awadh

  • 1722: Saadat Khan Burhan-ul-Mulk
  • Suppressed rebellions and disciplined the Zamindars
  • Fresh revenue settlement in 1723
  • Did not discriminate between Hindus and Muslims. The highest post in his government was held by a Hindu, Maharaja Nawab Rai
  • Died in 1739. Succeeded by Safdar Jung.
  • SJ’s reign was an era of peace
  •  made an alliance with the Maratha sardars
  • Carried out warfare against Rohelas and Bangash Pathans
  • Organized an equitable system of justice
  • Distinct culture of Lucknow developed during his period

Mysore

  • Haidar Ali, in 1761, overthrew Nanjaraj and established his own authority over Mysore
  • 1755: Established a modern arsenal at Dindigal with the help of French experts
  • Conquered Bidnur, Sunda, Sera, Canara and Malabar
  • He conquered Malabar because he wanted access to the Indian Ocean
  • First and Second Anglo-Mysore War
  • 1782: Succeeded by Tipu Sultan
  • TS was an innovator. Introduced a new calendar, a new system of coinage and new scales of weights and measures.
  • Keen interest in French Revolution
    • Planted a ‘tree of liberty’ at Srirangapatnam and became a member of the Jacobin Club
  • Made efforts to build a modern navy
  • Mysore flourished economically under Hyder Ali and Tipu Sultan
  • Sent missions to France, Turkey, Iran and Pegu Myanmar to develop foreign trade
  • Some historians say that Tipu was a religious fanatic. But facts don’t support this assertion.

 

 

Kerala

  • Divided into large number of feudal chiefs in the 18th century
  • Four important states
    • Calicut (under Zamorin), Chirakkal, Cochin and Travancore
  • In 1729, Travancore rose to prominence under King Martanda Varma
  • Conquered Quilon and Elayadam, and defeated the Dutch
  • From 1766 Haidar Ali invaded Kerala and annexed northern Kerala up to Cochin
  • Revival of Malyalam literature
    • Trivandram became a famous centre of Sanskrit scholarship

Rajput States

  • Rajputana states continued to be divided as before
  • Raja Sawai Jai Singh of Amber was the most outstanding ruler of the era
    • Founded the city of Jaipur
    • Made Jaipur a great seat of science and art
    • Astronomer. Erected observatories at Jaipur, Ujjain, Varanasi, and Mathura
    • Drew up a set of tables, entitled Zij Muhammadshahi, to enable people to make astronomical observations
    • Translated Euclid’s “Elements of Geometry” into Sanskrit
    • Social reformers. Reduce lavish marriage expenditures.

Jats

  • Jat peasants revolted in 1669 and 1688
  • Jat state of Bharatpur set up by Churaman and  Badan Singh
  • Reached its highest glory under Suraj Mal, who ruled from 1756 to 1763

Sikhs

  • Sikhsim transformed into a militant religion during Guru Hargobind (1606-45), the sixth guru.
  • Guru Gobind Singh waged constant war against the armies of Aurangzeb and the hill rajas
  • After Guru Gobind Singh’s death (1708), leadership passed to Banda Singh (Banda Bahadur)
    • He struggled with the Mughal army for 8 years
    • Put to death in 1715
  • Banda Bahadur failed because
    • Mughal centre was still strong
    • Upper classes and castes of Punjab joined forces against him
    • He could not integrate all the anti-Mughal forces because of his religious bigotry
  • After the withdrawal of Abdali from Punjab, Sikhs were again resurgent
  • Between 1765 and 1800 they brought the Punjab and Jammu under their control
  • They were organized into 12 misls
  • Ranjit Singh
    • Chief of the Sukerchakia Misl
    • Captured Lahore (1799) and Amritsar (1802)
    • Conquered Kashmir, Peshawar and Multan
    • Possessed the second best army in Asia
    • Tolerant and liberal
    • Fakir Azizuddin and Dewan Dina Nath were his important ministers
    • “known to step down from his throne to wipe the dust off the feet of Muslim mendicants with his long grey beard”
    • Negative point: He did not remove the threat of British. He only left it over to his successors. And so, after his death, when his kingdom was torn by intense internal struggle, English conquered it.

Marathas

  • Maratha Families
    • Peshwa – Pune
    • Gaekwad – Baroda
    • Bhosle – Nagpur
    • Holkar – Indore
    • Scindia – Gwalior
  • The most powerful of the succession states
  • Could not fill the political vacuum because
    • Maratha Sardars lacked unity
    • Lacked the outlook and programme which were necessary for founding an all-India empire
  • Shahuji
    • Son of Sambhaji
    • Imprisoned by Aurungzeb
    • Released in 1707
    • Civil war between Shahu and his aunt Tarabai who ruled in the name of her infant son Shivaji II
    • The conflict gave rise to a new era of Maratha leadership, the era of Peshwa leadership
  • Balaji Vishwnath
    • 1713: Peshwa of King Shahu
    • Induced Zulfikar Khan to grant the chauth and sardeshmukhi of the Deccan
    • Helped the Saiyid brothers in overthrowing Farukh Siyar
    • Maratha sardars were becoming individually strong but collectively weak
    • Died in 1720. Succeeded by his son Baji Rao I
  • Baji Rao I
    • the greatest extent of guerrilla tactics after Shivaji
    • Vast areas ceded by the Mughals
    • Marathas won control over Malwa, Gujarat and parts of Bundelkhand
    • Rivalry with Nizam ul Mulk
    • Compelled the Nizam to grant chauth and sardeshmukhi of the Deccan provinces
    • 1733: Campaign against Sidis of Janjira and the Portuguese (Salsette and Bassein)
    • Died in 1740
    • Captured territories but failed to lay the foundations of an empire
    • Succeeded by Balaji Baji Rao (Nana Saheb)
  • Balaji Baji Rao (1740-61)
    • Shahu died in 1749. Peshwas became the de facto rulers
    • Shifted the capital to Poona
    • Captured Orissa
    • Mysore forced to pay tributes
    • In 1752, helped Imad-ul-Mulk to become the wazir
    • Brought Punjab under their control and expelled the agent of Ahmad Shah Abdali
      • This led AS Abdali to come to India to settle accounts with Marathas in the Third Battle of Panipat
    • Third Battle of Panipat
      • ASA formed an alliance with Najib-ud-daulah of Rohilkhand and Shuja-ud-daulah of Awadh.

Saranjami system?

Social and economic condition

LAKE ECOLOGY

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Any – body of standing water, generally large enough in area and depth, irrespective of its hydrology, ecology, and other characteristics is generally known as lake.

Ageing of Lakes

The nutrient enrichment of the lakes promotes the growth of algae, aquatic plants and various fauna. This process is known as natural eutrophication.

Similar nutrient enrichment of lakes at an accelerated rate is caused by human activities and the consequent ageing phenomenon is known as ‘cultural eutrophication’.

In India, natural lakes (relatively few) mostly ile in the Himalayan region, the floodplains of Indus, Ganga and Brahmaputra.

Lake ‘Sudarshan’ in Gujarat’s Girnar area was perhaps the oldest man-made lake in India, dating back to 300 BC.

Lakes are also classified on the basis of their water chemistry. Based-on the levels of salinity, they are known as Freshwater, Brackish or Saline lakes (similar to that of classification of aquatic ecosystem).

On the basis of their nutrient content, they are categorized as Oligotrophic (very low nutrients), Mesotrophic (moderate nutrients) and Eutrophic (highly nutrient rich).

Removal of the nutrients from a lake

  • Flushing with nutrient-poor waters.
  • Deep water abstraction.
  • On-site P-elimination by flocculation/flotation with water backflow, or floating Plant
  • NESSIE with adsorbents.
  • On-site algae removal by filters and P-adsorbers.
  • 0n-site algae skimming and separator thickening.
  • Artificial mixing / Destratification (permanent or intermittent).
  • Harvest of fishes and macrophytes.
  • Sludge removal

EUTROPHICATION

a syndrome of ecosystem, response to the addition of artificial or natural substances such as nitrates and phosphates through fertilizer, sewage, etc that fertilize the aquatic ecosystem.

The growth of green algae which we see in the lake surface layer is the physical identification of an Eutrophication.

Some algae and blue-green bacteria thrive on the excess ions and a population explosion covers almost entire surface layer is known as algal bloom.  Nitrogen testing is a technique to find the optimum amount of fertilizer required for crop plants. It will reduce the amount of nitrogen lost to the surrounding area.

 

 

HARMFUL ALGAL BLOOMS

Algae or phytoplankton are microscopic organisms that can be found naturally in coastal waters. They are major producers of oxygen and food for many of the animals that live in these waters.

Algal blooms can be any color, but the most common ones are red or brown.

Most algal blooms are not harmful but some produce toxins and do affect fish, birds, marine mammals and humans.

Use of algae

Most species of algae or phytoplankton serve as the energy producers at the base of the food web, without which higher life on this planet would not exist.

Why Red Tide is a misnomer?

“Red Tide” is a common name for such a phenomenon where certain

phytoplankton species contain pigments and “bloom” such that the human eye perceives the water to be discoloured.

Blooms can appear greenish, brown, and even reddish orange depending upon the type of organism, the type of water, and the concentration of the organisms.

The term “red tide” is thus a misnomer because blooms are not always red, they are not associated with tides, they are usually not harmful, and some species can be harmful or dangerous at low cell concentrations that do not discolour the water.

What are the causes of these blooms?

Two common causes are nutrient enrichment and warm waters.

FOREST ECOSYSTEM

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Forest ecosystem includes a complex assemblage of different kinds of biotic communities. Optimum conditions such as temperature and ground moisture are responsible for the establishment of forest communities.

Forests may be evergreen or deciduous which are distinguished on the basis of leaf into broad-leafed or needle leafed coniferous forests in the case of temperate areas. classified into three major categories: coniferous forest, temperate forest and tropical forest.

All these forest biomes are generally arranged on a gradient from north to south latitude or from high to lower altitude

 

Coniferous forest (boreal forest):

Cold regions with high rainfall, strong seasonal climates with long winters and short summers

evergreen plant species such as Spruce, fir and pine trees, etc and by animals such as the lynx, wolf, bear, red fox, porcupine, squirrel, and amphibians like Hyla, Rana, etc.

Boreal forest soils are characterized by thin podozols and are rather poor. Both because, the weathering of rocks proceeds slowly in cold environments and because the litter derived from conifer needle (leaf  is decomposed very slowly and is not rich in nutrients.

These soils are acidic and are mineral deficient.

This is due to movement of large amount of water through the soil, without a significant counter-upward movement of evaporation, essential soluble nutrients like calcium, nitrogen and potassium which are leached sometimes beyond the reach of roots. This process leaves no alkaline oriented cations to encounter the organic acids of the accumulating litter.

The productivity and community stability of a boreal forest are lower than those of any other forest ecosystem.

Temperate deciduous forest:

The temperate forests are characterised by a moderate climate and broad-leafed deciduous trees, which shed their leaves in fall, are bare over winter and grow new foliage in the spring.

The precipitation is fairly uniform throughout.

Soils of temperate forests are podozolic and fairly deep.

Temperate evergreen forest:

Parts of the world that have Mediterranean type of Climate are characterised by warm, dry summers and cool, moist winters. low broad leafed evergreen trees.

Fire is an important hazardous factor in this ecosystem and the adaptation of the plants enable them to regenerate quickly after being burnt.

Temperate rain forests:

seasonality with regard to temperature and rainfall

Rainfall is high, and fog may be very heavy. It is the important source of water than rainfall itself

The biotic diversity of temperate rain forests is high as compared to other temperate forest.

the diversity of plants and animals is much low as compared to the tropical rainforest.

 

Tropical rain forests:

 

Near the equator.

Among the most diverse and rich communities on the earth.

Both temperature and humidity remain high and more or less uniform.

The annual rainfall exceeds 200 cm and is generally distributed throughout the year.

The flora is highly diversified The extreme dense vegetation of the tropical rain  forests remains vertically stratified with tall trees often covered with vines, creepers,   lianas, epiphytic orchids and bromeliads.

The lowest layer is an understory of trees,  shrubs, herbs, like ferns and palms.

Soil of tropical rainforests are red latosols, and they are very thick

Tropical seasonal forests:

also known as monsoon forest occur in regions where total annual rainfall is very high but segregated into pronounced wet and dry periods.

This kind of forest is found in South East Asia, central and south America, northern Australia, western Africa and tropical islands of the pacific as well as in India.

Subtropical rain forests:

Broad-leaved evergreen subtropical rain forests are found in regions of fairly high rainfall but less temperature differences between winter and summer

Epiphytes are common here.

Animal life of subtropical forest is very similar to that of tropical rainforests.

 

INDIAN FOREST TYPES

Forest types in India are classified by Champion and Seth into sixteen types.

 

Tropical Wet evergreen forests

are found along the Western Ghats, the Nicobar and Andaman Islands and all  along the north-eastern region.

It is characterized by tall, straight evergreen trees.

The trees in this forest form a tier pattern:

Beautiful fern of various colours and different varieties of orchids grow on the trunks of the trees.

Among the following States, which one has the most suitable climatic conditions for the cultivation of a large variety of orchids with minimum cost of production, and can develop

Tropical Semi-evergreen forests

found in the Western Ghats, Andaman and Nicobar Islands, and the Eastern

Himalayas.

Such forests have a mixture of the wet evergreen trees and the moist

deciduous trees. The forest is dense

Tropical Moist deciduous forests

found throughout India except in the western and the north -western regions.

The trees are tall, have broad trunks, branching trunks and roots to hold them firmly to the ground.

These forests are dominated by sal and teak, along with mango, bamboo, and rosewood.

Littoral and swamp

found along the Andaman and Nicobar Islands and the delta area of the Ganga and the Brahmaputra.

They have roots that consist of soft tissue so that the plant can breathe in the water.

Tropical Dry deciduous forest

The northern part of the country except in the North-East. It is also found in Madhya Pradesh, Gujarat, Andhra Pradesh, Karnataka, and Tamil Nadu. The canopy, of the trees does not normally exceed 25 metres.

The common trees are the sal, a variety of acacia, and bamboo.

Tropical Thorn forests

This type is found in areas with black soil: North, West, Central, and South India. The trees do not grow beyond 10 metres. Spurge, caper, and cactus are typical of this region.

Tropical Dry evergreen forest

Dry evergreens are found along Tamil Nadu Andhra Pradesh and Karnataka coast. It is mainly hard-leaved evergreen trees with fragrant flowers, along with a few  deciduous trees.

Sub-tropical Broad-leaved forests

Broad-leaved forests are found in the Eastern Himalayas and the Western Ghats, along the Silent Valley.

There is a marked difference in the form of vegetation in the two areas.

In the Silent Valley, the  poonspar, cinnamon, rhododendron, and fragrant grass are predominant.

In the Eastern Himalayas, the flora has been badly affected by the shifting cultivation and forest fires.

There are oak, alder, chestnut, birch, and cherry trees. There are a large variety of orchids, bamboo and creepers.

Sub-tropical Pine forests

found in Shivalik Hills, Western and Central Himalayas, Khasi, Naga, and Manipur Hills.

The trees predominantly found in these areas are the chir, oak, rhododendion, and   pine as well as sal, amla, and laburnum are found in the lower regions.

 

Sub-tropical Dry evergreen forests

hot and dry season and a cold winter. It generally has evergreen trees with shining

leaves that have a varnished look.

found in the Shivalik Hills and foothills of the Himalayas up to a height of 1000 metres.

Montane Wet temperate forests

In the North, found in the region to the east of Nepal into Arunachal Pradesh, receiving a minimum rainfall of 2000 mm. In the North, there are three layers of    forests: the higher layer has mainly coniferous, the middle layer has deciduous trees such as the oak and the lowest layer is covered by rhododendron and champa.

In the South, it is found in parts of the Niligiri Hills, the higher reaches of Kerala.

The forests in  the northern region are denser than in the South. Rhododendrons and a

variety of ground flora can be found here.

Himalayan Moist temperate Forest

This type spreads from the Western Himalayas to the Eastern Himalayas. The trees

found in the western section are broad-leaved oak, brown oak, walnut,

rhododendron,

Eastern Himalayas, the rainfall is much heavier and therefore the vegetation is also more lush and dense. There are a large variety of broad-leaved trees, ferri, and  bamboo.

Himalayan Dry temperate Forest

This type is found in Lahul, Kinnaur, Sikkim, and other parts of the Himalayas.

There are predominantly coniferous trees, along with broad-leaved trees such as the oak, maple, and ash. At higher elevation, fir, juniper, deodar, and chilgoza are found.

 

Sub alpine forest

Sub alpine forests extend from Kashmir to Arunachal Pradesh between 2900 to 3500 metres.

In the Western Himalayas, the vegetation consists mainly of juniper, hododendron, willow, and black currant.

In the eastern parts, red fir, black juniper, birch, and larch are the common trees.

Due to heavy rainfall and high humidity the timberline in this part is higher than that in the West.

Rhododendron of many species covers the hills in these parts.

Moist Alpine scrub

Moist alpines are found all along the Himalayas and on the higher hills near the Myanmar border. It has a low scrub, dense evergreen forest, consisting

mainly of rhododendron and birch. Mosses and ferns cover the ground in patches. This region receives heavy snowfall.

Dry alpine scrub

Dry alpines are found from about 3000 metres to about 4900 metres. Dwarf plants predominate, mainly the black juniper, the drooping juniper, honeysuckle, and willow.

BUDGETING

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Budgeting

Budgeting is the process of estimating the availability of resources and then allocating them to various activities of an organization according to a pre-determined priority. In most cases, approval of a budget also means the approval to various spending units to utilize the allocated resources. Budgeting plays a criucial role in the socio-economic development of the nation.

Budget is the annual statement of the outlays and tax revenues of the government of India together with the laws and regulations that approve and support those outlays and tax revenues . The budget has two purposes in general :
1. To finance the activities of the union government
2. To achieve macroeconomic objectives.

The Budget contains the financial statements of the government embodying the estimated receipts and expenditure for one financial year, ie.  it is a proposal of how much money is to be spent on what and how much of it will
be contributed by whom or raised from where during the coming year.

Different types of Budgeting

Economists throughout the globe have classified the budgets into different types based on the process and purpose of the budgets, which are as follows:-

1- The Line Item Budget

line-item budgeting was introduced in some countries in the late 19th centuary. Indeed line item budgeting which is the most common form of budgeting in a large number of countries and suffers from several drawbacks was a major reform initiative then. The line item budget is defined as “the budget in which the individual financial statement items are grouped by cost centers or departments .It shows the comparison between the financial data for the past  accounting or budgeting periods and estimated figures for the current or a future period”In a line-item system, expenditures for the budgeted period are listed according to objects of expenditure, or “line-items.” These line items include detailed ceilings on the amount a unit would spend on salaries, travelling allowances, office expenses, etc. The focus is on ensuring that the agencies
or units do not exceed the ceilings prescribed. A central authority or the Ministry of Finance keeps a watch on the spending of various units to ensure that the ceilings are not violated. The line item budget approach is easy to understand and implement. It also facilitates centralized control and fixing of authority and responsibility of the spending units. Its major disadvantage is that it does not provide enough information to the top levels about the activities and achievements of individual units.

2 – Performance Budgeting

a performance budget reflects the goal/objectives of the organization and spells out performance targets. These targets are sought to be achieved through a strategy. Unit costs are associated with the strategy and allocations are accordingly made for achievement of the objectives. A Performance Budget gives an indication of how the funds spent are expected to give outputs and ultimately the outcomes. However, performance budgeting has a limitation – it is not easy to arrive at standard unit costs especially in social programmes which require a multi-pronged approach.

3- Zero-based Budgeting

The concept of zero-based budgeting was introduced in the 1970s. As the name suggests, every budgeting cycle starts from scratch. Unlike the earlier systems where only incremental changes were made in the allocation, under zero-based budgeting every activity is evaluated each time a budget is made and only if it is established that the activity is necessary, are funds allocated to it. The basic purpose of Zero-based Budgeting is phasing out of programmes/ activities which do not have relevance anymore. However, because of the efforts involved in preparing a zero-based budget and institutional resistance related to personnel issues, no government ever implemented a full zero-based budget, but in modified forms the basic principles of ZBB are often used.

4- Programme Budgeting and Performance Budgeting

Programme budgeting in the shape of planning, programming and budgeting system (PPBS) was introduced in the US Federal Government in the mid-1960s. Its core themes had much in common with earlier strands of performance budgeting.
Programme budgeting aimed at a system in which expenditure would be planned and controlled by the
objective. The basic building block of the system was classification of expenditure into programmes, which meant objective-oriented classification so that programmes with common objectives are considered together.
It aimed at an integrated expenditure management system, in which systematic policy and expenditure planning would be developed and closely integrated with the budget. Thus, it was too ambitious in scope. Neither was adequate preparation time given nor was a stage-by-stage approach adopted. Therefore, this attempt to introduce PPBS in the federal government in USA did not succeed, although the concept of performance budgeting and programme budgeting endured.

 

 

Budgetary Control

Budgetary control refers to how well managers utilize budgets to monitor and control costs and operations in a given accounting period. In other words, budgetary control is a process for managers to set financial and performance goals with budgets, compare the actual results, and adjust performance, as it is needed.

Budgetary control involves the following steps :

(a) The objects are set by preparing budgets.

(b) The business is divided into various responsibility centres for preparing various budgets.

(c) The actual figures are recorded.

(d) The budgeted and actual figures are compared for studying the performance of different cost centres.

(e) If actual performance is less than the budgeted norms, a remedial action is taken immediately.

The main objectives of budgetary control are the follows:

  1. To ensure planning for future by setting up various budgets, the requirements and expected performance of the enterprise are anticipated.
  2. To operate various cost centres and departments with efficiency and economy.
  3. Elimination of wastes and increase in profitability.
  4. To anticipate capital expenditure for future.
  5. To centralise the control system.
  6. Correction of deviations from the established standards.
  7. Fixation of responsibility of various individuals in the organization.

 

Responsibility Accounting

Responsibility accounting is an underlying concept of accounting performance measurement systems. The basic idea is that large diversified organizations are difficult, if not impossible to manage as a single segment, thus they must be decentralized or separated into manageable parts.

These decentralized parts are divided as : 1) revenue centers, 2) cost centers, 3) profit centers and 4) investment centers.

  1. revenue center (a segment that mainly generates revenue with relatively little costs),
  2. costs for a cost center (a segment that generates costs, but no revenue),
  3. a measure of profitability for a profit center (a segment that generates both revenue and costs) and
  4. return on investment (ROI) for an investment center (a segment such as a division of a company where the manager controls the acquisition and utilization of assets, as well as revenue and costs).

 

Advantages:-

  1. It provides a way to manage an organization that would otherwise be unmanageable.
  2. Assigning responsibility to lower level managers allows higher level managers to pursue other activities such as long term planning and policy making.
  3. It also provides a way to motivate lower level managers and workers.
  4. Managers and workers in an individualistic system tend to be motivated by measurements that emphasize their individual performances.

In India the budget is prepared from top to bottom approach and responsible accounting would not only improve the efficiency of Indian budgetary system but also will help in performance analysis.

Social Accounting

Social accounting is concerned with the statistical classification of the activities of human beings and human institutions in ways which help us to understand the operation of the economy as a whole.

Social accounting is the process of communicating the social and environmental effects of organizations’ economic actions to particular interest groups within society and to society at large

The components of social accounting are production, consumption, capital accumulation, government transactions and transactions with the rest of the world.

The uses of social accounting are as follows:

(1) In Classifying Transactions

(2) In Understanding Economic Structure

(3) In Understanding Different Sectors and Flows

(4) In Clarifying Relations between Concepts

(7) In Explaining Movements in GNP

(8) Provide a Picture of the Working of Economy

(9) In Explaining Interdependence of Different Sectors of the Economy

(10) In Estimating Effects of Government Policies

(11) Helpful in Big Business Organisations

(12) Useful for International Purposes

(13) Basis of Economic Models

 

Budgetary Deficit

Budgetary Deficit is the difference between all receipts and expenditure of the government, both revenue and capital. This difference is met by the net addition of the treasury bills issued by the RBI and drawing down of cash balances kept with the RBI. The budgetary deficit was called deficit financing by the government of India. This deficit adds to money supply in the economy and, therefore, it can be a major cause of inflationary rise in prices.

Budgetary Deficit of central government of India was Rs. 2,576 crores in 1980-81, it went up to Rs. 11,347 crores in 1990-91 to Rs. 13,184 crores in 1996-97.

The concept of budgetary deficit has lost its significance after the presentation of the 1997-98 Budget. In this budget, the practice of ad hoc treasury bills as source of finance for government was discontinued. Ad hoc treasury bills are issued by the government and held only by the RBI. They carry a low rate of interest and fund monetized deficit. These bills were replaced by ways and means advance. Budgetary deficit has not figured in union budgets since 1997-98. Since 1997-98, instead of budgetary deficit, Gross Fiscal Deficit (GFD) became the key indicator.

 

Fiscal Deficit

  • The difference between total revenue and total expenditure of the government is termed as fiscal deficit. It is an indication of the total borrowings needed by the government and thus amounts to all the borrowings of the government . While calculating the total revenue, borrowings are not included.
  • The gross fiscal deficit (GFD) is the excess of total expenditure including loans net of recovery over revenue receipts (including external grants) and non-debt capital receipts. The net fiscal deficit is the gross fiscal deficit less net lending of the Central government.
  • Generally fiscal deficit takes place either due to revenue deficit or a major hike in capital expenditure. Capital expenditure is incurred to create long-term assets such as factories, buildings and other development.
  • A deficit is usually financed through borrowing from either the central bank of the country or raising money from capital markets by issuing different instruments like treasury bills and bonds.

 

Revenue Deficit

  • Revenue deficit is concerned with the revenue expenditures and revenue receipts of the government. It refers to excess of revenue expenditure over revenue receipts during the given fiscal year.
  • Revenue Deficit = Revenue Expenditure – Revenue Receipts
  • Revenue deficit signifies that government’s own revenue is insufficient to meet the expenditures on normal functioning of government departments and provisions for various services.
  • In India social expenditure like MNREGA is a revenue expenditure though a part of Plan expenditure.
  • Its targeted to be 2.9% of GPD in the year 2014-15, though the fiscal revenue and budget management act specifies it to be zero by 2008-09

SIMPLIFICATION

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Simplification

Simplification is one of the most important part of Quantitative Aptitude section of any competitive exam. Today I am sharing all the techniques to solve Simplification questions quickly.

Rules of Simplification

V  Vinculum

B  Remove Brackets – in the order ( ) , { }, [ ]

O  Of
D  Division

M  Multiplication

A  Addition

S  Subtraction

 

Classification

Types Description
Natural Numbers: all counting numbers ( 1,2,3,4,5….∞)
Whole Numbers: natural number + zero( 0,1,2,3,4,5…∞)
Integers: All whole numbers including Negative number + Positive number(∞……-4,-3,-2,-1,0,1,2,3,4,5….∞)
Even & Odd Numbers : All whole number divisible by 2 is Even (0,2,4,6,8,10,12…..∞) and which does not divide by 2 are Odd (1,3,5,7,9,11,13,15,17,19….∞)
Prime Numbers: It can be positive or negative except 1, if the number is not divisible by any number except the number itself.(2,3,5,7,11,13,17,19,23,29,31,37,41,43,47,53,59,61….∞)
Composite Numbers: Natural numbers which are not prime
Co-Prime: Two natural number a and b are said to be co-prime if their HCF is 1.

 

Divisibility

Numbers IF A Number Examples
Divisible by 2 End with 0,2,4,6,8 are divisible by 2 254,326,3546,4718 all are divisible by 2
Divisible by 3 Sum of its digits  is divisible by 3 375,4251,78123 all are divisible by 3.  [549=5+4+9][5+4+9=18]18 is divisible by 3  hence 549 is divisible by 3.
Divisible by 4 Last two digit divisible by 4 5648 here last 2 digits are 48 which is divisible by 4 hence 5648 is also divisible by 4.
Divisible by 5 Ends with 0 or 5 225 or 330 here last digit digit is 0 or 5 that mean both the numbers are divisible by 5.
Divisible by 6 Divides by Both 2 & 3 4536 here last digit is 6 so it divisible by 2 & sum of its digit (like 4+5+3+6=18) is 18 which is divisible by 3.Hence 4536 is divisible by 6.
Divisible by 8 Last 3 digit divide by 8 746848 here last 3 digit 848 is divisible by 8 hence 746848 is also divisible by 8.
Divisible by 10 End with 0 220,450,1450,8450 all numbers has a last digit zero it means all are divisible by 10.
Divisible by 11 [Sum of its digit in
odd places-Sum of its digits
in even places]= 0 or multiple of 11		 Consider the number 39798847

(Sum of its digits at odd places)-(Sum of its digits at even places)(7+8+9+9)-(4+8+7+3)

(23-12)

23-12=11, which is divisible by 11. So 39798847 is divisible by 11.

Division & Remainder Rules

Suppose we divide 45 by 6

 

hence ,represent it as:

dividend = ( divisorquotient ) + remainder

or

divisior= [(dividend)-(remainder] / quotient

could be write it as

x = kq + r where (x = dividend,k = divisor,q = quotient,r = remainder)

 

 

Rules

  1. Modulus of a Real Number:

Modulus of a real number a is defined as

|a| = a, if a > 0
a, if a < 0

Thus, |5| = 5 and |-5| = -(-5) = 5.

  1. Virnaculum (or Bar):

When an expression contains Virnaculum, before applying the ‘BODMAS’ rule, we simplify the expression under the Virnaculum.

 

 

Example:

On dividing a certain number by 342, we get 47 as remainder. If the same number is divided by 18, what will be the remainder ?

Number = 342k + 47

( 18 ✘19k ) + ( 18 ✘2 ) + 11

18 ✘( 19k + 2 ) +11.

Remainder = 11

 

Sum Rules

(1+2+3+………+n) = 1/n(n+1)

(12+22+32+………+n2) = 1/n (n+1) (2n+1)

(13+23+33+………+n3) = 1/4 n2 (n+1)2

 

Questions:

Level-I:

 

1. A man has Rs. 480 in the denominations of one-rupee notes, five-rupee notes and ten-rupee notes. The number of notes of each denomination is equal. What is the total number of notes that he has ?
A. 45
B. 60
C. 75
D. 90

 

2. There are two examinations rooms A and B. If 10 students are sent from A to B, then the number of students in each room is the same. If 20 candidates are sent from B to A, then the number of students in A is double the number of students in B. The number of students in room A is:
A. 20
B. 80
C. 100
D.  

200

 

3. The price of 10 chairs is equal to that of 4 tables. The price of 15 chairs and 2 tables together is Rs. 4000. The total price of 12 chairs and 3 tables is:
A. Rs. 3500
B. Rs. 3750
C. Rs. 3840
D. Rs. 3900

 

4. If a – b = 3 and a2 + b2 = 29, find the value of ab.
A. 10
B. 12
C. 15
D. 18

 

5. The price of 2 sarees and 4 shirts is Rs. 1600. With the same money one can buy 1 saree and 6 shirts. If one wants to buy 12 shirts, how much shall he have to pay ?
A. Rs. 1200
B. Rs. 2400
C. Rs. 4800
D. Cannot be determined
E. None of these

 

 

6.

 A sum of Rs. 1360 has been divided among A, B and C such that A gets  of what B gets and B gets  of what C gets. B’s share is:
A. Rs. 120
B. Rs. 160
C. Rs. 240
D. Rs. 300

 

7. One-third of Rahul’s savings in National Savings Certificate is equal to one-half of his savings in Public Provident Fund. If he has Rs. 1,50,000 as total savings, how much has he saved in Public Provident Fund ?
A. Rs. 30,000
B. Rs. 50,000
C. Rs. 60,000
D. Rs. 90,000

 

8. A fires 5 shots to B’s 3 but A kills only once in 3 shots while B kills once in 2 shots. When B has missed 27 times, A has killed:
A. 30 birds
B. 60 birds
C. 72 birds
D. 90 birds

 

9. Eight people are planning to share equally the cost of a rental car. If one person withdraws from the arrangement and the others share equally the entire cost of the car, then the share of each of the remaining persons increased by:
A.
1
7
B.
1
8
C.
1
9
D.
7
8

 

10. To fill a tank, 25 buckets of water is required. How many buckets of water will be required to fill the same tank if the capacity of the bucket is reduced to two-fifth of its present ?
A. 10
B. 35
C. 62.5
D. Cannot be determined
E. None of these

 

Level-II:

1. In a regular week, there are 5 working days and for each day, the working hours are 8. A man gets Rs. 2.40 per hour for regular work and Rs. 3.20 per hours for overtime. If he earns Rs. 432 in 4 weeks, then how many hours does he work for ?
A. 160
B. 175
C. 180
D. 195

 

12. Free notebooks were distributed equally among children of a class. The number of notebooks each child got was one-eighth of the number of children. Had the number of children been half, each child would have got 16 notebooks. Total how many notebooks were distributed ?
A. 256
B. 432
C. 512
D. 640
E. None of these

 

13. A man has some hens and cows. If the number of heads be 48 and the number of feet equals 140, then the number of hens will be:
A. 22
B. 23
C. 24
D. 26

 

14.
(469 + 174)2 – (469 – 174)2 = ?
(469 x 174)
A. 2
B. 4
C. 295
D. 643

 

15. David gets on the elevator at the 11th floor of a building and rides up at the rate of 57 floors per minute. At the same time, Albert gets on an elevator at the 51st floor of the same building and rides down at the rate of 63 floors per minute. If they continue travelling at these rates, then at which floor will their paths cross ?
A. 19
B. 28
C. 30
D. 37

 

  1. Find the value of 1/(3+1/(3+1/(3-1/3)))
A.) 3/10 B.) 10/3
C.) 27/89 D.) 89/27

  1. Find the value of
A.) 3½ 99; B.) 34/99
C.) 2.131313 D.) 3.141414

 

18.Find the value of

((0.1)3 + (0.6)3 + (0.7)3 − (0.3)(0.6)(0.7))/((0.1)2 + (0.6)2 + (0.7)2 − 0.006 − 0.42 − 0.07)

 

A.) 14/10 B.) 1.35
C.) 13/10 D.) 0

 

 

 

 

  1. Solve(0.76 × 0.76 × 0.76 − 0.008)/(0.76 × 0.76 + 0.76 × 0.2 + 0.04)
A.) 0.56 B.) 0.65
C.) 0.54 D.) 0.45
   
  1. Find the value of
A.) 1.5 B.) -1.5
C.) 1 D.) 0

 

Answers:

Level-I

 

Answer:1 Option D

 

Explanation:

Let number of notes of each denomination be x.

Then x + 5x + 10x = 480

16x = 480

x = 30.

Hence, total number of notes = 3x = 90.

 

 

Answer:2 Option C

 

Explanation:

Let the number of students in rooms A and B be x and y respectively.

Then, x – 10 = y + 10      x – y = 20 …. (i)

and x + 20 = 2(y – 20)      x – 2y = -60 …. (ii)

Solving (i) and (ii) we get: x = 100 , y = 80.

The required answer A = 100.

 

 

Answer:3 Option D

 

Explanation:

Let the cost of a chair and that of a table be Rs. x and Rs. y respectively.

Then, 10x = 4y   or   y = 5 x.
2

15x + 2y = 4000

 15x + 2 x 5 x = 4000
2

20x = 4000

x = 200.

So, y = 5 x 200 = 500.
2

Hence, the cost of 12 chairs and 3 tables = 12x + 3y

= Rs. (2400 + 1500)

= Rs. 3900.

 

 

 

 

 

Answer:4 Option A

 

Explanation:

2ab = (a2 + b2) – (a – b)2

= 29 – 9 = 20

ab = 10.

 

 

 

Answer:5 Option B

 

Explanation:

Let the price of a saree and a shirt be Rs. x and Rs. y respectively.

Then, 2x + 4y = 1600 …. (i)

and x + 6y = 1600 …. (ii)

 

Divide equation (i) by 2, we get the below equation.

 

=> x +  2y =  800. — (iii)

 

Now subtract (iii) from (ii)

 

x +  6y = 1600  (-)

x +  2y =  800

—————-

4y =  800

—————-

 

Therefore, y = 200.

 

Now apply value of y in (iii)

 

=>  x + 2 x 200 = 800

 

=>  x + 400 = 800

 

Therefore x = 400

 

Solving (i) and (ii) we get x = 400, y = 200.

Cost of 12 shirts = Rs. (12 x 200) = Rs. 2400.

 

 

Answer:6 Option C

 

Explanation:

Let C’s share = Rs. x

Then, B’s share = Rs. x ,   A’s share = Rs. 2 x x = Rs. x
4 3 4 6

 

x + x x = 1360
6 4

 

17x = 1360
12

 

 x = 1360 x 12 = Rs. 960
17

 

Hence, B’s share = Rs. 960 = Rs. 240.

 

 

Answer:7 Option C

 

Explanation:

Let savings in N.S.C and P.P.F. be Rs. x and Rs. (150000 – x) respectively. Then,

1 x = 1 (150000 – x)
3 2

 

x + x = 75000
3 2

 

5x = 75000
6

 

 x = 75000 x 6 = 90000
5

Savings in Public Provident Fund = Rs. (150000 – 90000) = Rs. 60000

 

 

Answer:8 Option A

 

Explanation:

Let the total number of shots be x. Then,

Shots fired by A = 5 x
8

 

Shots fired by B = 3 x
8

 

Killing shots by A = 1 of 5 x = 5 x
3 8 24

 

Shots missed by B = 1 of 3 x = 3 x
2 8 16

 

3x = 27 or x = 27 x 16 = 144.
16 3

 

Birds killed by A = 5x = 5 x 144 = 30.
24 24

 

 

 

 

 

 

 

Answer:9 Option A

 

Explanation:

Original share of 1 person = 1
8

 

New share of 1 person = 1
7

 

Increase = 1 1 = 1
7 8 56

 

 Required fraction = (1/56) = 1 x 8 = 1
(1/8) 56 1 7

 

 

Answer:10 Option C

 

Explanation:

Let the capacity of 1 bucket = x.

Then, the capacity of tank = 25x.

New capacity of bucket = 2 x
5

 

 Required number of buckets = 25x
(2x/5)

 

=  25x x  

5
2x

 

= 125
2

= 62.5

 

Level-II:

Answer:11 Option B

 

Explanation:

Suppose the man works overtime for x hours.

Now, working hours in 4 weeks = (5 x 8 x 4) = 160.

160 x 2.40 + x x 3.20 = 432

3.20x = 432 – 384 = 48

x = 15.

Hence, total hours of work = (160 + 15) = 175.

 

Answer:12 Option C

 

Explanation:

Let total number of children be x.

Then, x x 1 x = x x 16     x = 64.
8 2

 

 Number of notebooks = 1 x2 = 1 x 64 x 64 = 512

 

Answer:13 Option D

 

Explanation:

Let the number of hens be x and the number of cows be y.

Then, x + y = 48 …. (i)

and 2x + 4y = 140      x + 2y = 70 …. (ii)

Solving (i) and (ii) we get: x = 26, y = 22.

The required answer = 26.

 

Answer:14 Option B

 

Explanation:

Given exp. = (a + b)2 – (a – b)2
ab

 

   = 4ab
ab

= 4 (where a = 469, b = 174.)

 

Answer:15 Option C

 

Explanation:

Suppose their paths cross after x minutes.

Then, 11 + 57x = 51 – 63x        120x = 40

x = 1
3

 

Number of floors covered by David in (1/3) min. = 1 x 57 = 19.
3

So, their paths cross at (11 +19) i.e., 30th floor.

 

Answer:16 Option ‘C’

Explanation:

1/[3 + (1/(3+1/(3 – 1/3)))]

=> 1/[3 + 1/(3 + 1/(8/3))]

=> 1/[3 + 1/(3 + 3/8)]

=> 1/[3 + 8/27]

=> 1/(89/27)

=> 27/89

 

Answer:17 Option ‘D’

Explanation:

6/9 + 7/9 + 9/9 + 69/99

2/3 + 7/9 + 1 + 69/99

(66 + 77 + 99 + 69)/99

311/99 => 3.141414

 

Answer:18 Option ‘A’

Explanation:

((0.1)3 + (0.6)3 + (0.7)3 − (0.3)(0.6)(0.7))/((0.1)2 + (0.6)2 + (0.7)2 − 0.006 − 0.42 − 0.07)

=> (0.1 + 0.6 + 0.7)3/(0.1 + 0.6 + 0.7)2

=> 0.1 + 0.6 + 0.7 => 1.4 = 14/10

 

Answer:19 Option ‘A’

 

Answer:20 Option ‘D’

11/30 − [1/6 + 1/5 + [7/12 − 7/12]]

11/30 − [1/6 + 1/5 + [0]]

11/30 − [(5 + 6)/30]

11/30 − 11/30 = 0.