History of India

From Wikipedia, the free encyclopedia

This article is about the history of the Indian subcontinent with India in focus prior to the partition of India in 1947. For the modern Republic of India, see History of the Republic of India. For Pakistan and Bangladesh in focus, see History of Pakistan and History of Bangladesh.

"Indian history" redirects here. For other uses, see Native American history.

Part of a series on the
History of India
Chronology of Indian history
Ancient India
Prehistoric India and Vedic India Religions, Society, Mahajanapadas Mauryan Period Economy, Spread of Buddhism, Chanakya, Satavahana Empire The Golden Age Discoveries, Aryabhata, Ramayana, Mahabharata
Medieval India
The Classical Age Gurjara-Pratihara Pala Empire Rashtrakuta Empire Art, Philosophy, Literature Islam in India Delhi Sultanate, Vijayanagara Empire, Music, Guru Nanak Mughal India Architecture, Maratha Confederacy
Modern India
Company Rule Zamindari system, Warren Hastings, Mangal Pandey, 1857 British Indian Empire Hindu reforms, Bengal Renaissance, Independence struggle, Mahatma Gandhi, Subhas Chandra Bose
v t e

Nation histories Afghanistan Bangladesh Bhutan India Maldives Nepal Pakistan Sri Lanka
Regional histories Assam Balochistan Bengal Bihar Gujarat Himachal Pradesh Kashmir Khyber Pakhtunkhwa Rajasthan Maharashtra Uttar Pradesh Punjab Odisha Sindh South India Tamil Nadu Tibet
Specialised histories Coinage Dynasties Economy Indology Language Literature Maritime Military Pakistan studies Science & Technology Timeline
v t e

The history of India begins with evidence of human activity of Anatomically modern humans, as long as 75,000 years ago, or with earlier hominids including Homo erectus from about 500,000 years ago.^[1]

The Indus Valley Civilization which spread and flourished in the northwestern part of the Indian subcontinent from c. 3300 to 1300 BCE in present-day Pakistan and northwest India, was the first major civilization in South Asia.^[2] A sophisticated and technologically advanced urban culture developed in the Mature Harappan period, from 2600 to 1900 BCE.^[3] This civilization collapsed at the start of the second millennium BCE and was later followed by the Iron Age Vedic Civilization, which extended over much of the Indo-Gangetic plain and which witnessed the rise of major polities known as the Mahajanapadas. In one of these kingdoms, Magadha,Mahavira and Gautama Buddha propagated their Shramanic philosophies during the fifth and sixth century BCE.

Most of the subcontinent was conquered by the Maurya Empire during the 4th and 3rd centuries BCE. From the 3rd century BC onwards Prakrit and Pali literature in the north and the Sangam literature in southern India started to flourish.^[4][5] The famous Wootz steel originated in south India in the 3rd century BC and was exported to foreign countries.^[6][7][8]

Various parts of India were ruled by numerous Middle kingdoms for the next 1,500 years, among which the Gupta Empire stands out. This period, witnessing a Hindu religious and intellectual resurgence, is known as the classical or "Golden Age of India". During this period, aspects of Indian civilization, administration, culture, and religion (Hinduism and Buddhism) spread to much of Asia, while kingdoms in southern India had maritime business links with the Roman Empire from around 77 CE. Indian cultural influence spread over many parts of Southeast Asia which led to the establishment of Indianized kingdoms in Southeast Asia (Greater India).^[9]

The most significant event between the 7th and 11th century was the Tripartite struggle centered on Kannauj that lasted for more than two centuries between the Pala Empire, Rashtrakuta Empire, and Gurjara Pratihara Empire. Southern India was ruled by theChalukya, Chola, Pallava, Pandyan, and Western Chalukya Empires. The seventh century also saw the advent of Islam as a political power, though as a fringe, in the western part of the subcontinent, in modern day Pakistan.^[10] The Chola dynasty conquered southern India and successfully invaded parts of Southeast Asia and Sri Lanka in the 11th century.^[11][12] The early medieval periodIndian mathematics influenced the development of mathematics and astronomy in the Arab world and the Hindu numerals were introduced.^[13]

Muslim rule started in parts of north India in the 13th century when the Delhi Sultanate was founded in 1206 CE by the central Asian Turks.^[14] The Delhi Sultanate ruled the major part of northern India in the early 14th century, but declined in the late 14th century when several powerful Hindu states such as the Vijayanagara Empire, Gajapati Kingdom, Ahom Kingdom and the Mewar dynastyemerged. In the 16th century, Mughals came from Central Asia and gradually covered most of India. The Mughal Empire suffered a gradual decline in the early 18th century, which provided opportunities for the Maratha Empire, Sikh Empire and Mysore Kingdom to exercise control over large areas of the subcontinent.^[15][16]

From the late 18th century to mid 19th century, large areas of India were annexed by the British East India Company. Dissatisfaction with Company rule led to the Indian Rebellion of 1857, after which the British provinces of India were directly administered by theBritish Crown and witnessed a period of both rapid development of infrastructure and economic stagnation. During the first half of the 20th century, a nationwide struggle for independence was launched with the leading party involved being the Indian National Congress which was later joined by other organizations.

The subcontinent gained independence from the United Kingdom in 1947, after the British provinces were partitioned into the dominions of India and Pakistan and the princely states all acceded to one of the new states.

Science (from Latin scientia, meaning "knowledge"^[1]) is a systematic enterprise that builds and organizes knowledge in the form of testable explanations and predictions about nature and the universe.^{[nb 1]} In an older and closely related meaning, "science" also refers to a body of knowledge itself, of the type that can be rationally explained and reliably applied. Ever since classical antiquity, science as a type of knowledge has been closely linked to philosophy. In the West during the early modern period the words "science" and "philosophy of nature" were sometimes used interchangeably,^[2]:p.3 and until the 19th century natural philosophy (which is today called "natural science") was considered a separate branch of philosophy in the West.^[3]
In modern usage, "science" most often refers to a way of pursuing knowledge, not only the knowledge itself. It is also often restricted to those branches of study that seek to explain the phenomena of the material universe.^[4] In the 17th and 18th centuries scientists increasingly sought to formulate knowledge in terms of laws of nature. Over the course of the 19th century, the word "science" became increasingly associated with the scientific method itself, as a disciplined way to study the natural world, including physics, chemistry, geology and biology. It is in the 19th century also that the term scientist began to be applied to those who sought knowledge and understanding of nature.^[5] However, "science" has also continued to be used in a broad sense to denote reliable and teachable knowledge about a topic, as reflected in modern terms like library science or computer science. This is also reflected in the names of some areas of academic study such as "social science" or "political science".

The scale of the universe mapped to the branches of science and the hierarchy of science.^[6]

Further information: Outline of science

Contents

• 1 History
  • 1.1 Pre-philosophical
  • 1.2 Philosophical study of nature
  • 1.3 Philosophical turn to human things
  • 1.4 Medieval science, and foundations for scientific method
  • 1.5 Renaissance, and early modern science
  • 1.6 Age of Enlightenment
  • 1.7 19th century
  • 1.8 20th century and beyond
• 2 Philosophy of science
  • 2.1 Certainty and science
  • 2.2 Fringe science, pseudoscience and junk science
• 3 Scientific practice
  • 3.1 The scientific method
  • 3.2 Mathematics and formal sciences
  • 3.3 Basic and applied research
  • 3.4 Research in practice
  • 3.5 Practical impacts of scientific research
• 4 Scientific community
  • 4.1 Branches and fields
  • 4.2 Institutions
  • 4.3 Literature
• 5 Science and society
  • 5.1 Women in science
  • 5.2 Science policy
  • 5.3 Media perspectives
  • 5.4 Political usage
• 6 See also
• 7 Notes
• 8 References
• 9 Further reading
• 10 External links

History

Main article: History of science

Main articles: History of the Earth and Evolution

An animation showing the movement of the continents from the separation of Pangaea until the present day.

Science in a broad sense existed before the modern era, and in many historical civilizations.^[7] Modern science is distinct in its approach and successful in its results: 'modern science' now defines what science is in the strictest sense of the term.^[8] Much earlier than the modern era, another important turning point was the development of classical natural philosophy in the ancient Greek-speaking world.

Pre-philosophical

Science in its original sense is a word for a type of knowledge (Latin scientia, Ancient Greek epistemē), rather than a specialized word for the pursuit of such knowledge. In particular it is one of the types of knowledge which people can communicate to each other and share. For example, knowledge about the working of natural things was gathered long before recorded history and led to the development of complex abstract thinking. This is shown by the construction of complex calendars, techniques for making poisonous plants edible, and buildings such as the pyramids. However no consistent conscientious distinction was made between knowledge of such things which are true in every community and other types of communal knowledge, such as mythologies and legal systems.

Philosophical study of nature

See also: Nature (philosophy)

Maize known in some English-speaking countries as corn, is a large grain plant domesticated by indigenous peoples in Mesoamerica in prehistoric times.

Before the invention or discovery of the concept of "nature" (Ancient Greek phusis), by the Pre-Socratic philosophers, the same words tend to be used to describe the natural "way" in which a plant grows,^[9] and the "way" in which, for example, one tribe worships a particular god. For this reason it is claimed these men were the first philosophers in the strict sense, and also the first people to clearly distinguish "nature" and "convention".^[10] Science was therefore distinguished as the knowledge of nature, and the things which are true for every community, and the name of the specialized pursuit of such knowledge was philosophy — the realm of the first philosopher-physicists. They were mainly speculators or theorists, particularly interested in astronomy. In contrast, trying to use knowledge of nature to imitate nature (artifice or technology, Greek technē) was seen by classical scientists as a more appropriate interest for lower class artisans.^[11]

Philosophical turn to human things

A major turning point in the history of early philosophical science was the controversial but successful attempt by Socrates to apply philosophy to the study of human things, including human nature, the nature of political communities, and human knowledge itself. He criticized the older type of study of physics as too purely speculative, and lacking in self-criticism. He was particularly concerned that some of the early physicists treated nature as if it could be assumed that it had no intelligent order, explaining things merely in terms of motion and matter. The study of human things had been the realm of mythology and tradition, and Socrates was executed.^[12] Aristotle later created a less controversial systematic programme of Socratic philosophy, which was teleological, and human-centred. He rejected many of the conclusions of earlier scientists. For example in his physics the sun goes around the earth, and many things have it as part of their nature that they are for humans. Each thing has a formal cause and final cause and a role in the rational cosmic order. Motion and change is described as the actualization of potentials already in things, according to what types of things they are. While the Socratics insisted that philosophy should be used to consider the practical question of the best way to live for a human being (a study Aristotle divided into ethics and political philosophy), they did not argue for any other types of applied science.
Aristotle maintained the sharp distinction between science and the practical knowledge of artisans, treating theoretical speculation as the highest type of human activity, practical thinking about good living as something less lofty, and the knowledge of artisans as something only suitable for the lower classes. In contrast to modern science, Aristotle's influential emphasis was upon the "theoretical" steps of deducing universal rules from raw data, and did not treat the gathering of experience and raw data as part of science itself.^[13]

Medieval science, and foundations for scientific method

During late antiquity and the early Middle Ages, the Aristotelian approach to inquiries on natural phenomenon was used. Some ancient knowledge was lost, or in some cases kept in obscurity, during the fall of the Roman Empire and periodic political struggles. However, the general fields of science, or natural philosophy as it was called, and much of the general knowledge from the ancient world remained preserved though the works of the early Latin encyclopedists like Isidore of Seville. Also, in the Byzantine empire, many Greek science texts were preserved in Syriac translations done by groups such as Nestorians and Monophysites.^[14] Many of these were translated later on into Arabic under Caliphate, during which many types of classical learning were preserved and in some cases improved upon.^[14] During the Islamic Golden Age, a Muslim scholar Ibn al-Haytham, who is considered by some to be the father of modern scientific method, argued for it by emphasizing experimental data and reproducibility of its results.^{[15][16][17][18][19]:pp.60–67[20]:pp.25–29} The House of Wisdom, considered to be the first university in the world, was established in Abbasid-era Baghdad, Iraq.^[21] It is considered to have been a major intellectual center during the Islamic Golden Age. In the later medieval period, as science in Byzantium and the Islamic world waned, Western Europeans began collecting ancient texts from the Mediterranean, not only in Latin, but also in Greek, Arabic, and Hebrew. Knowledge of ancient researchers such as Aristotle, Ptolemy, Euclid, amongst Catholic scholars, were recovered with renewed interest in diverse aspects of natural phenomenon. In Europe, men like Roger Bacon (13th century) in England argued for more experimental science. By the late Middle Ages, a synthesis of Catholicism and Aristotelianism known as Scholasticism was flourishing in Western Europe, which had become a new geographic center of science.

Renaissance, and early modern science

Main article: Scientific revolution

Galileo is considered one of the fathers of modern science.^[22]

By the late Middle Ages, especially in Italy there was an influx of Greek texts and scholars from the collapsing Byzantine empire. Copernicus formulated a heliocentric model of the solar system unlike the geocentric model of Ptolemy's Almagest. All aspects of scholasticism were criticized in the 15th and 16th centuries; one author who was notoriously persecuted was Galileo, who made innovative use of experiment and mathematics. However the persecution began after Pope Urban VIII blessed Galileo to write about the Copernican system. Galileo had used arguments from the Pope and put them in the voice of the simpleton in the work "Dialogue Concerning the Two Chief World Systems" which caused great offense to him.^[23]
In Northern Europe, the new technology of the printing press was widely used to publish many arguments including some that disagreed with church dogma. René Descartes and Francis Bacon published philosophical arguments in favor of a new type of non-Aristotelian science. Descartes argued that mathematics could be used in order to study nature, as Galileo had done, and Bacon emphasized the importance of experiment over contemplation. Bacon questioned the Aristotelian concepts of formal cause and final cause, and promoted the idea that science should study the laws of "simple" natures, such as heat, rather than assuming that there is any specific nature, or "formal cause", of each complex type of thing. This new modern science began to see itself as describing "laws of nature". This updated approach to studies in nature was seen as mechanistic. Bacon also argued that science should aim for the first time at practical inventions for the improvement of all human life.