Description of chief executive natural resources of Myanmar

LAND OF GOLD

Chief Natural resources of Myanmar

Since ancient times, the land known today as Myanmar has been famous for its wealth in natural resources of all kinds. Today, Myanmar’s natural resources include oil and gas, various minerals, precious stones and gems, timber and forest products, hydropower potential, etc. Of these, natural gas, rubies, jade, and timber logs are the most valuable and currently provide a substantial proportion of national income. To date, there has been a very low-level of systematic exploration of Myanmar’s natural resources due to lack of modern survey techniques.     I

According to official data, recent foreign direct investment in Myanmar has been concentrated in the oil/gas and hydro power sectors, with mining coming in third position by value. Investment commitments made in the 2010/11 financial year were approximately 30 times the rate of commitments made on average for the previous 22 years.

NEIGHBORING COUNTRY MYANMAR

The main investors by country were Myanmar’s neighbors China (including Hong Kong) and Thailand, followed by South Korea, Singapore, and others. While the vast majority of people in the national workforce are subsistence farmers, the gas industry and the precious/semi-precious stone-mining industries have provided the largest incomes, with gas earning of $3.6 billion for 2011–2012 and precious stones earning of approximately $3.4 billion in 2010 from auction sales.
Despite a shortage of natural gas for the domestic market, most of the natural gas is exported. Currently all gas exports go to Thailand. Yet, a new 1,800-kilometer-long pipeline – which will cross the whole country, from Kyauk Phyu in Rakhine state to Kunming, China – will commence later in 2013

DESCRIPTION / ECONOMICAL CONDITION  MYANMAR

Myanmar is geologically very rich, and mining is significant as a large-scale industry and also in small-scale artisanal forms. Mineral occurrences cover all sectors, including base metals (gold, copper, silver, lead, zinc, tin, antimony, iron, etc.), industrial minerals, energy sources (mainly coal), gems (jade, rubies, sapphires, etc.), as well as “rare earth” minerals. Myanmar is perhaps best known for gold, jade, rubies, sapphires. It is estimated that in the past, 90 percent of the world’s rubies came from Myanmar. The state is currently aiming to control and manage all aspects of production and sale of jade and gems, but in this sector, as well as in the gold sector, large informal and illegal industries exist.

 


Despite being blessed with an abundance of natural resources, Myanmar’s citizens are among the poorest in Asia and lag behind their ASEAN neighbors in all aspects of human development. Myanmar’s natural resources were managed in unsustainable and transparent ways during decades of military rule and economic mismanagement. Lack of transparency in the past has raised many questions about potential misappropriation. Revenues were used for state needs, among them being military expenses to ensure the military’s control. While natural resources were being sold to neighboring countries, the local population was left empty-handed.

MAJOR PRODUCTION  MYANMAR  

 Opium production in Myanmar has historically been a major contributor to the county’s gross domestic product (GDP). Burma is the world’s second largest producer of opium after Afghanistan, producing some 25% of the world’s opium, and forms part of the Golden Triangle. The opium industry was a monopoly during colonial times and has since been illegally operated by corrupt officials in the Burmese military and rebel fighters, primarily as the basis for heroin manufacture.

 


Production is mainly concentrated in the Shan -,Kachin states. Due to poverty, opium production is attractive to impoverished farmers as the financial return from poppy is 17 times more than that of rice. The yield during 2012 was 690 tons, valued at US $359 million.

Economic specialists indicate that recent trends in growth have the potential to increase the gap between the rich and the poor in the country, empowering criminal rackets at the expense of democracy

natural resource

 

Socialization

What Is Socialization ?

Human infants are born without any culture.  They must be transformed by their parents, teachers, and others into cultural and socially adept animals.  The general process of acquiring culture is referred to as socialization. Successful socialization can result in uniformity within a society.

Socialization is important in the process of personality formation.  While much of human personality is the result of our genes, the socialization process can mold it in particular directions by encouraging specific beliefs and attitudes as well as selectively providing experiences.  This very likely accounts for much of the difference between the common personality types in one society in comparison to another.  For instance, the Semai tribesmen of the central Malay Peninsula of Malaysia typically are gentle people who do not like violent, aggressive individuals.  In fact, they avoid them whenever possible.  In contrast, the Yanomamö Indians on the border area between Venezuela and Brazil usually train their boys to be tough and aggressive.

How are People Socialized?

Socialization is the process by which children and adults learn from others. We begin learning from others during the early days of life; and most people continue their social learning all through life (unless some mental or physical disability slows or stops the learning process). Sometimes the learning is fun, as when we learn a new sport, art or musical technique from a friend we like. At other times, social learning is painful, as when we learn not to drive too fast by receiving a large fine for speeding.

Agents of Socialization

The individual responds differently to different socialization patterns. The following paragraphs will help to explain the influences of socialization on an individual.

Family
The most important agent of socialization, family helps mold an individual. The family values, beliefs, religious inclinations and political views shape an individual’s outlook towards society. Parents are the biggest influence for the social development in children.

Schools
After family, schools are probably the most important influence on an individual. Schools help pass on knowledge, create awareness and inculcate the feelings of tolerance in individuals. The second step to socialization is schools where a child meets different children and learns to make out the right and wrong in society.

Community and Culture
Community and culture help pass on the religious views and cultural traditions in an individual. A community is the group where an individual meets people with similar ideologies and interact for personal and community growth.

Peers
Meeting like-minded people, making friends and hanging out together may seem like a teenagers life. But in fact, each and every individual in society loves to have social contact. Peers have great impact on an individual’s thoughts and line of thinking. An individual learns to behave in a manner that they think will be acceptable to their peers. Peer acceptance is an important part of socialization.

Mass Media
In today’s world, mass media is one of important ways of socialization. People are influenced by the social norms portrayed by the mass media. Political, religious and social views are enforced in a hard way through the repeated exposure and arguments put forth by the agents of mass media.
Through the above explanation, you will understand, that agents of socialization play an important role in an individual’s life. The different positive attributes fed by these agents create harmony in an individual that makes him feel confident and respect social etiquette.

TYPES OF SOCIALIZATION

Primary socialization for a child is very important because it sets the ground work for all future socialization. Primary Socialization occurs when a child learns the attitudes, values, and actions appropriate to individuals as members of a particular culture. It is mainly influenced by the immediate family and friends. For example if a child saw his/her mother expressing a discriminatory opinion about a minority group, then that child may think this behavior is acceptable and could continue to have this opinion about minority groups.

Secondary socialization Secondary socialization refers to the process of learning what is the appropriate behavior as a member of a smaller group within the larger society. Basically, it is the behavioral patterns reinforced by socializing agents of society. Secondary socialization takes place outside the home. Secondary Socialization is usually associated with teenagers and adults, and involves smaller changes than those occurring in primary socialization. Such examples of Secondary Socialization are entering a new profession or relocating to a new environment or society.

Anticipatory socialization Anticipatory socialization refers to the processes of socialization in which a person “rehearses” for future positions, occupations, and social relationships. For example, a couple might move in together before getting married in order to try out, or anticipate, what living together will be like] Research by Kenneth J. Levine and Cynthia A. Hoffner suggests that parents are the main source of anticipatory socialization in regards to jobs and careers.

Re-socialization Re-socialization refers to the process of discarding former behavior patterns and reflexes, accepting new ones as part of a transition in one’s life. This occurs throughout the human life cycle. Re-socialization can be an intense experience, with the individual experiencing a sharp break with his or her past, as well as a need to learn and be exposed to radically different norms and values

 

 

 

Organizational socialization

Organizational socialization is the process whereby an employee learns the knowledge and skills necessary to assume his or her organizational role. As newcomers become socialized, they learn about the organization and its history, values, jargon, culture, and procedures. This acquired knowledge about new employees’ future work environment affects the way they are able to apply their skills and abilities to their jobs. Socialization functions as a control system in that newcomers learn to internalize and obey organizational values and practices.

 

 

Green chemistry :A New Route TO Protection Of Environment

GREEN CHEMISTRY  is   a program of developing new chemical products and chemical processes or making improvements in the already existing compounds and processes so as to make them less harmful to human death and environment. Green chemistry uses the database information about the toxic and hazardous properties of certain in order to fully evaluate their positive and negative impact. The non  availability of such data in the previous years posed problems to the chemists for evaluating consequences of the chemical substance being  synthesis and green chemistry tries to find the solution of these problems.

FATHER Of Green  CHEMISTRY:

PAUL.T.ANASTAS (American) the father of green chemistry. They for the first time in 1991 coined the term green chemistry. Recently Paul T. Anastasio the Director of Yale University’s  for Green Chemistry and Green Engineering.   15 years ago in 1990 the concept of green chemistry was established at the Environment Protection Agency . It was a response to the Pollution Prevention Act of 1990

Introduction:

When we start talking about GREEN CHEMISTRY many of us relate Green chemistry to the branch of science involving plants.  However, it is nothing to do with the chemistry of plants. In fact, it relate to the program of alternative synthetic pathways for prevention of environmental pollution. The expression green chemistry was used by scientists in 1902 after the formation of Pollution Prevention Act 1990.

GREEN CHEMISTRY is simply a way of utilizing the existing knowledge and principles of Chemistry  and other sciences to reduce the  harmful impact on environment due to the compounds.

GREEN CHEMISTRY

 

HISTORY :

In the period of 1990’s a variety of ideas and research efforts (such as atom economy and catalysis ) emerged Green Chemistry .

Green chemistry is also known as  “clean” and “sustainable” chemistry .

In 1962 a book Silent spring was written by Rachel Carson . It was a scientific book  it talked about the devastation that certain chemical had on local ecosystem. The book served as wake up call for thee Public  as well as the scientist and inspired the Morgen environmental movement . After this the congress noticed the importance and passed the National Environment Policy Act  in 1969. This was The  first step taken for the environment.

12 Principles of Green Chemistry

  • Prevention

“ It is better to prevent waste than to treat or clean up waste after it is formed”.

  • Atom Economy

“Synthetic method should be designed to maximize the incorporation of all materials used in process into the final products”.

  • Less Hazardous Chemical Syntheses

Whenever practicable, synthetic methodologies should be designed to use and generate substance that litter or no toxicity to human health and environment”

  • Designing Safer Chemicals

Chemical products should be designed to preserve Efficacy of function while reducing toxicity”.

  • Safer Solvents and Auxiliaries

“ The use of auxiliary substance should be made unnecessary where possible and innocuous when used”.

  • Reduce Derivatives

Reduce derivatives unnecessary derivatives should be avoided whenever possible”.

  • Catalysis

“Catalytic reagents are superior to chemical reagents”

Use of a catalyst facilities transformation without the catalyst being consumed in the reaction and without incorporated in the final product.

  • Design for Degradation

“Chemical products should be designed so that at the end of their function they do not persist in the environment and break down into innocuous degradation products”.

  • Real-time analysis for Pollution Prevention

 

“ Analytical methodologies need to be further developed to allow for real-time, in process monitoring and control prior to the formation of hazardous substance”.

“Checking the Progress of chemical reaction as it happens”.

  • Inherently Safer Chemistry for Accident Prevention

“Substance and the form of a substance used in a chemical process should be chosen to low  potential for chemical accidents, including releases explosions, and fires”.

Design for Energy Efficiency

“Energy requirements should be recognized for their environmental and economic impacts and should be minimized. Synthetic method should be conducted at ambient temperature and pressure”.

Use of Renewable Feed stocks

“ A raw material or feed stock are often made from agricultural products are the waste of the other processes depleting feed stock are made from fossil fuels or are mined.

 APPLICATION OF GREEN CHEMISTRY (Tulsa):

Green Chemistry In industry

  • Development of dense-phase carbon dioxide.

Dense-phase Carbon dioxide has been characteristics. This super critical Carbon dioxide is wonderful material which has the ability to clean everything from the plutonium pits to semiconductor wafer as well as clothes. It can also be used as recyclable solvent and finds number of applications in food industry. Future possible uses of the Carbon dioxide  include making cement stronger and also in reducing pollution emission from coal plants.

  • Development of fuel cells for cellular phones which can last full life time of thee phones. These cells are based on methanol-oxygen fuels.
  • Development of new method for synthesizing ibuprofen in 99 Percent yield, avoiding the use of large quantities of solvents and waste associated with traditional methods.
  • Development of a safer marine  compound sea-nine that degrades more rapidly than organised  which persist in Marin environment and cause pollution problems.
  • Development of a method for catalytic hydrogenation of diethanolamine. The new Friendly herbicide in a less dangerous way. This technology represents a major break through because it avoids the use of cyanide  and formaldehyde.

 

application of green chemistry

GREEN CHEMISTRY IN Daily  LIFE:

  • Dry Cleaning of clothes

1,1,2,2-Tetrachloroethane was earlier used as solvent for dry cleaning clothes. The compound contaminates the ground water and is also a suspected carcinogen. Now a days, Carbon dioxide  along with suitable detergent is used for dry cleaning in place of 1,1,2,2-Tetrachloroethane Replacement of hydrogenated solvent  Carbon dioxide will result in less harm of ground water.

  • Bleaching of paper and clothes

Chlorine gas was used earlier for bleaching of the paper. These days, hydrogen peroxide with some Suitable  catalyst is used. Hydrogen peroxide is also used for the purpose of bleaching of clothes in the Laundry processes, which gives better results and makes use of lesser amount of water.

GREEN CHEMISTRY IN Agriculture (BRAZILIAN):

Agriculture is the one of the most important things for humans.It  plays an important role in the field of agriculture. Green chemistry principle are mostly related to the manufacturing part of the agriculture the pesticide, fertilizers should be non-toxic and should not harm the agriculture by any means And they also not harm humans and environment. There are many ways by which agriculture can be protected by green chemistry like:

  • Minimise the risk of pesticides
  • Using suitable fertilizer
  • Maintain the variety
  • Energy efficiency in the chemicals industry

Barriers of GREEN CHEMISTRY IN INDIA:

 1: Availability of green technologies

2: Scale-up and commercial

3: Connecting green chemistry solution providers to industry

4:Understanding of basics of green principle

5: Green chemistry is costly, complex and not viable for SME?

6: Regulatory hurdles

Future aspects of green chemistry:

As we know green chemistry plays very important role for environment. In India present day also there are places where green chemistry should be applied but due to many reasons . In future

Green chemistry should be used there are  many of the reasons 

  • Results in healthier living conditions
  • Is economical and profitable
  • Encourages creativity in the world of chemistry
  • Is healthy for the environment.