Rendezvous with Astrolabes

Although I am a student of Physics, my first rendezvous with astrolabe was few years ago through philately. I got a Spanish stamp with the image of astronomer Al-Zarqali / Arzachel, beside his astrolabe. Then I got a Syrian stamp on which astronomer Sibt al-Mardini who was also a timekeeper (muwaqqit) was busy doing some observations on his astrolabe. Another Syrian stamp which was released at the occasion of 2nd International symposium for the history of Arabic Science clearly shows an astrolabe. I became fascinated by its beauty and versatility and came to know about two libraries and a museum in India where ancient scientific instruments including astrolabes are preserved. A small collection of unique medieval scientific instruments are preserved in Khuda Bakhsh Oriental Public Library at Patna. Another collection of instruments are preserved at Rampur Raza Library and yet another collection is at Salar Jung Museum, Hyderabad. A small but unique collection of medieval astronomical instruments is preserved in SPS museum Srinagar. All these instruments have been catalogued by great Sanskrit scholar  SR Sarma. Last year I bought the album of scientific instruments preserved at the Khuda Bakhsh Oriental Public Library. The album has been edited by Imtiaz Ahmed on the basis of a paper by  SR Sarma entitled ‘A brief Introduction to the Astronomical Instruments preserved in Khuda Bakhsh Library, Patna’ published in Khuda Bakhsh Library journal in the year 1999. Recently I had the opportunity to see the astrolabes and other instruments at Khuda Bakhsh Oriental Public Library.

The astrolabe is an ancient astronomical instrument/ analogue computer. Astrolabe is a very versatile instrument. It was first designed by Greeks to measure the altitude of a heavenly body. It was used to ascertain position of celestial bodies like Sun, Moon, planets and stars in the sky. It was also used for measuring height and distances in land surveys. It can also be used to simulate the motion of heavenly bodies at any locality and time. In fact it can also be used to measure time. The design, manufacture and applications of astrolabes were improved by Arabs in middle ages. It was used to calculate the Qibla and to find the times for Salah. Astrolabe was adopted for navigational purposes by the German geographer, Martin Behaim.

Several types of astrolabes have been made since antiquity. The most popular type is the planispheric astrolabe, on which the celestial sphere is projected onto the plane of the equator. A typical astrolabe was made of brass and was about 6-10 inches in diameter, although much larger and smaller ones were made. An astrolabe consists of a disk, called the mater (mother), which is deep enough to hold one or more flat plates called tympans or climates. A tympan is made for a specific latitude and is engraved with a stereographic projection of circles denoting azimuth and altitude and representing the portion of the celestial sphere above the local horizon. The rim of the mater is typically graduated into hours of time, degrees of arc. Above the mater and tympan, the rete or ankabut, a framework bearing a projection of the ecliptic plane and several pointers indicating the positions of the brightest stars, is free to rotate. The rete, representing the sky, functions as a star chart. When it is rotated, the stars and the ecliptic move over the projection of the coordinates on the tympan. One complete rotation corresponds to the passage of a day. On the back of the mater there is often engraved a number of scales that are useful in the astrolabe's various applications; these vary from designer to designer, but might include curves for time conversions, a calendar for converting the day of the month to the sun's position on the ecliptic, trigonometric scales, and a graduation of 360 degrees around the back edge. The alidade is attached to the back face. When the astrolabe is held vertically, the alidade can be rotated and the sun or a star sighted along its length, so that its altitude in degrees can be read from the graduated edge of the astrolabe.

The concept of astrolabe was introduced in India by noted polymath Alberuni through his writings. The medieval rulers Firoz Shah Tughlaq and Humayun patronized astronomy. During Mughal period some finest astrolabes were manufactured in Lahore.

Astrolabes have now been replaced by sextants, GPS and other sophisticated digital devices but their study and handling leads to insights into basic measurement, geometry, stereographic projection, astronomy, geography and design and application of instruments. There are about thousand Islamic astrolabes that survive in various museums throughout world. They are pieces of beauty and craftmanship for beholders. Not only men but women also excelled in designing of astrolabes. Mirium al Ijli from Aleppo was a famous designer and crafter of intricate astrolabes that’s why she is also known as Mirium asturlabi.

Report on Indian Science Communication Congress(ISCC-2012)

The 12th Indian Science Communication Congress (ISCC-2012) with the theme of ‘Risk Communication and Development’ was held at Indian National Science Academy (INSA), New Delhi from 17-21 December. The conference was being jointly organized by National Council of Science and Technology Communication (NCSTC), Indian Science Writers Association (ISWA), Vidyadeep Foundation and Jan Sewa Ashram. The conference was inaugurated by Prof. Ved Prakash, Chairman, University Grants Commission (UGC) and Presidential address was delivered by Prof. Krishan Lal, President, Indian National Science Academy. Key note address was delivered by Dr. R. K. Bhandari, Former Chairman, Centre for Disaster Mitigation. Prof. Samir K. Brahmachari, Director General of Council of Scientific Research (CSIR) and veteran journalist Dr. Radhey Shyam Sharma graced the occasion as guest of honour.  Indian Science Writers Association (ISWA) conferred national awards and fellowships to fifty leading scientists and journalists of the nation. Around 250 scientists, science writers, academicians,  science correspondents and students participated in the congress. In his inaugural address Prof. Ved Prakash, Chairman, UGC, stressed the importance of quality education and research in the higher science education. In the presidential address Dr. Krishan Lal, INSA President suggested the importance of fact based debates and discussion between the scientists, communicators and common people. Dr. Manoj Kumar Patairiya talked about addressing the dilemma over emerging conflicting  issues on science and technology and role of scientists and journalists. Prof. Samir K Brahmachari stressed the importance of science communicators for bridging the gap between scientists and common people.

Several topics such as Risk Communication and Management, Nuclear Energy and Environmental Awareness, Public appreciation of Health Risks and Genetically Modified Organisms were discussed and deliberations made during the conference. The increasing public concerns on emerging issues in genetically modified organisms, nuclear energy, climate change, clinical trials, industrial hazards, etc., need to be addressed with fair, honest, and factual scientific understanding; this entire concept opens up a yet another area of science communication, i.e. “Risk Communication & Development”, which was the focal theme of ISCC-2012. The deliberations  covered a wide range of sub themes, such as: Communication for Sustainable Development; Awareness of Genetically Modified Organisms; Public Appreciation of Nuclear Energy; Public Understanding of Health Risks; Environmental Risks and Communication Strategies; Public Misunderstanding of Superstitions; Preparedness for Disasters - Natural and Human; Risk Communication and Mass Media; Scientific Temper and Risk Management, etc.

I presented my paper on Public awareness of directive on restriction of hazardous substances. We are living in an electronic age. We have e-mail, e-banking, e-business, e-books, e-medicine (telemedicine) and so on. The e-products like laptops and cellular phones have penetrated the society in a big way. However majority of users of these products are unaware of presence of hazardous chemicals in electronic goods. The Directive on the restriction of the use of certain hazardous substances in electrical and electronic equipment was adopted in 2003 by the European Union. The RoHS-directive, restricts the use of six hazardous materials (viz., lead, mercury, cadmium, chromium, PBB and PDBE) in the manufacture of various types of electronic and electrical equipment. PBB and PBDE are brominated flame retardants used in several plastics. A long term exposure of these substances may lead to damage of Nervous system, Kidney, Bones, Reproductive System and Endocrine system. BFR release dioxins and furans which are neurotoxins.

The topics of the evening talks covered First Aid in Disaster by well known physician Dr. K.K. Aggarwal, Science and Art of Weather Forecasting by Dr. Akhilesh Gupta, Secretary UGC, Disasters and Public Awareness by Dr. K. J. Ramesh, Advisor, Ministry of Earth Sciences, and Nuclear Energy Debate by Dr. S.K. Malhotra, Department of Atomic Energy, Govt. of India. The deliberations emphasized the need of a Science and Technology Communication Policy.

Second session of the last day was dedicated for “Young Scholars” which was chaired by Dr. M Prithviraj, Executive Director, Karnataka State Council for Science & Tech. Variety of presentations were made and appreciated by the audience.

Discussion and conclusion sessions was chaired by Dr. S K Malhotra, Director, Public Affairs, Deptt of Atomic Energy, Govt. of India and Rappoteur was Mr. B P Singh, Journalist, Chandigarh. Dr. Manoj Pataria, Director, NCSTC, GOI also share the dais and answered the queries of the participants and delegates. This session was dedicated for the interaction, discussion, suggestion and further recommendation to the higher authorities for their kind consideration.

The valedictory session of the conference was graced by dignitaries such as Mr. Noorana, Sr. Manager, Corporate communication, India Oil Corporation, Mr. Anand Khati, JS, MoES, GOI, Prof Saroj Mishra, University of Houston Clear Lake, USA and Dr. Avinash Mishra, Chief Resident Commissioner, Govt. of Arunachal Pradesh.