Dr. Shreehari Marathe presented on his efforts to develop Varunyantra, a low-cost device to conduct cloud seeding using biomass and salt, in order to address water scarcity through tapping skywater. Some key points:
1) Deforestation and pollution have reduced the natural supply of cloud condensation nuclei needed for rain formation. Varunyantra aims to supplement this by vaporizing salt.
2) Early experiments in 2009 using bonfires and salt successfully produced rain. This led to developing Varunyantra and conducting demonstrations across 30 villages.
3) If implemented widely, cloud seeding could help India's agriculture and economy by hundreds of crores
1) Experiments were conducted in Gondia, Maharashtra to test a new method for artificial insemination of cows. In these experiments, cows were successfully artificially inseminated through this new method.
2) Further experiments were conducted in 3 villages in Gondia district over a period of 10 days, involving 5000 pamphlets distributed and 300 farmers contacted. This led to 10 attempts at artificial insemination in Gondia village, with 9 resulting in pregnancy.
3) The method involves carefully monitoring cows' estrus cycle, inseminating when the cervix is most receptive, and ensuring semen deposition in the correct place for fertilization. The author believes this natural method can help
This document provides instructions for upgrading the firmware on a Samsung GT-S5830 phone from Froyo to Gingerbread. It outlines the necessary files, the Odin multi-downloader software, and a step-by-step process for putting the phone in download mode, connecting it to a PC, loading the firmware package, and initiating the upgrade process which takes approximately 5 minutes to complete. Upon rebooting, the phone will have been upgraded to the new Gingerbread firmware.
PresentacióN Final Esomar Para EnvíO De Mailfactory ideas
The document discusses webnography, a new technique for online market research. It involves conducting online searches, interviews, and semiotic analysis on formal websites and informal sites like blogs and social media. Webnography allows researchers to analyze topics, brands, and products that different age groups discuss in the present, past, and future across real and virtual spaces. It also provides insights into advertising, public image, and online services over time.
The document provides definitions and explanations of various terms and concepts related to the US government, including:
- The House of Representatives and Senate as the two chambers of Congress
- Filibusters and cloture votes used by the Senate to delay or end debates
- Roles of the majority and minority leaders in the House
- Standing and conference committees that deal with legislation
- Gerrymandering and redistricting of electoral boundaries for political purposes
The document summarizes atmospheric boundary layer activities at ESRL, including research goals, findings, and capabilities. Key points include:
1) ESRL studies the boundary layer using observations from field projects and models to understand processes like pollutant transport, cloud formation, and climate changes.
2) Recent findings relate to mixing depths over water, stable boundary layer structure, and Arctic climate trends driven by boundary layer processes.
3) ESRL capabilities include observations from field projects, chemistry and physics analysis, and models that are used together to advance understanding and prediction of the boundary layer and its interactions.
Dr. Shreehari Marathe presented on his efforts to develop Varunyantra, a low-cost device to conduct cloud seeding using biomass and salt, in order to address water scarcity through tapping skywater. Some key points:
1) Deforestation and pollution have reduced the natural supply of cloud condensation nuclei needed for rain formation. Varunyantra aims to supplement this by vaporizing salt.
2) Early experiments in 2009 using bonfires and salt successfully produced rain. This led to developing Varunyantra and conducting demonstrations across 30 villages.
3) If implemented widely, cloud seeding could help India's agriculture and economy by hundreds of crores
1) Experiments were conducted in Gondia, Maharashtra to test a new method for artificial insemination of cows. In these experiments, cows were successfully artificially inseminated through this new method.
2) Further experiments were conducted in 3 villages in Gondia district over a period of 10 days, involving 5000 pamphlets distributed and 300 farmers contacted. This led to 10 attempts at artificial insemination in Gondia village, with 9 resulting in pregnancy.
3) The method involves carefully monitoring cows' estrus cycle, inseminating when the cervix is most receptive, and ensuring semen deposition in the correct place for fertilization. The author believes this natural method can help
This document provides instructions for upgrading the firmware on a Samsung GT-S5830 phone from Froyo to Gingerbread. It outlines the necessary files, the Odin multi-downloader software, and a step-by-step process for putting the phone in download mode, connecting it to a PC, loading the firmware package, and initiating the upgrade process which takes approximately 5 minutes to complete. Upon rebooting, the phone will have been upgraded to the new Gingerbread firmware.
PresentacióN Final Esomar Para EnvíO De Mailfactory ideas
The document discusses webnography, a new technique for online market research. It involves conducting online searches, interviews, and semiotic analysis on formal websites and informal sites like blogs and social media. Webnography allows researchers to analyze topics, brands, and products that different age groups discuss in the present, past, and future across real and virtual spaces. It also provides insights into advertising, public image, and online services over time.
The document provides definitions and explanations of various terms and concepts related to the US government, including:
- The House of Representatives and Senate as the two chambers of Congress
- Filibusters and cloture votes used by the Senate to delay or end debates
- Roles of the majority and minority leaders in the House
- Standing and conference committees that deal with legislation
- Gerrymandering and redistricting of electoral boundaries for political purposes
The document summarizes atmospheric boundary layer activities at ESRL, including research goals, findings, and capabilities. Key points include:
1) ESRL studies the boundary layer using observations from field projects and models to understand processes like pollutant transport, cloud formation, and climate changes.
2) Recent findings relate to mixing depths over water, stable boundary layer structure, and Arctic climate trends driven by boundary layer processes.
3) ESRL capabilities include observations from field projects, chemistry and physics analysis, and models that are used together to advance understanding and prediction of the boundary layer and its interactions.
The document describes a technique called Varunyantra for cloud seeding and rainfall induction. It involves building large bonfires and sprinkling salt on the flames to generate salt-enriched smoke plumes that rise into the sky. The salt particles act as cloud condensation nuclei, facilitating the coalescence of water droplets in clouds and accelerating the formation of raindrops. Over 500 trials of Varunyantra have achieved an 80% success rate in inducing rainfall. The technique uses inexpensive and readily available materials, making it suitable for widespread implementation.
The document discusses how India is suffering losses from weather-related disasters like drought, untimely rain, floods, fog and cyclones. It proposes setting up a national Doppler radar network to monitor weather across India and neighboring countries. The goal is to develop technologies to control weather and minimize impacts from global warming, droughts and floods through rain initiation, enhancement and stopping. This would include research on mobile launchers, guns, rockets and salt-based ammunition for ground-based cloud seeding directed from a command center using the Doppler radar network.
This document provides information on using flash slides of common objects to teach English vocabulary to children in primary schools. It introduces the purpose of using photographs of everyday items to help children learn nouns, adjectives, numbers, colors and other parts of speech. The document outlines how to use the slides by asking questions about the objects pictured and adjusting the level of questions based on the age and ability of the students. It then lists categories of objects that will be included in the flash slides and provides examples of slides featuring animals and buildings with accompanying teaching questions.
The document appears to be a series of slides describing the development of Varunyantra, a device created by Dr. Marathe to induce rain through cloud seeding. It details experiments conducted from 2009-2010 in various locations in India to test Varunyantra, refine its design, and demonstrate its effects. Key events include early experiments showing increased rain, discussions with scientists, demonstrations to politicians and groups, and tours across Maharashtra to share Varunyantra.
Varunyantra is a new technology developed by Indian scientists to generate electricity from sea waves. It works by using the motion of waves to drive hydraulic motors connected to generators, converting the kinetic energy of the waves into electricity. This technology could provide a clean, renewable source of energy for coastal regions and islands.
This document discusses recent weather modification studies and activities in China. It provides background on China's climate and frequent natural disasters. It then describes China's extensive weather modification program, which has over 37,000 participants conducting precipitation enhancement, hail suppression, and fog dispersal using aircraft, artillery, rockets, and generators. Recent projects include a new Doppler radar network and studies on evaluation techniques, cloud seeding impacts, and aircraft-based cloud observation systems. Weather modification generates large economic benefits and causes no observed environmental impacts.
Cloud Seeding for India (An effective weapon to fight draught) by Prof Shivaj...Shreehari Marathe
1. Cloud seeding is used by over 50 countries to increase rainfall for agriculture and drinking water, disperse fog, increase hydropower generation, suppress hail storms, mitigate drought and the impacts of global warming. Several countries like the US, Australia, and China have benefited greatly from cloud seeding technologies.
2. Rice provides over half the world's population with their primary food source and energy intake. Rice-based agricultural systems employ nearly 1 billion people in rural areas of developing countries. Efficient rice production is essential for economic development and improved quality of life.
3. Water availability per person is declining in many countries due to population growth, urbanization, and industrialization. By 2025, over
This document summarizes the key points from a conference on weather modification techniques in Gadchiroli district, India from July 14, 2010. It discusses Gadchiroli's efforts over the past 10 years to enhance precipitation and suppress hail using artillery shells, rockets, aircraft and ground-based generators. Results include increased rainfall and crop yields, benefiting the local economy. The document also reviews environmental impacts and proposes adjusting methods based on conditions in each target area.
The document presents the science plan for CAIPEEX (Cloud Aerosol Interaction & Precipitation Enhancement Experiment). It discusses 1) the motivation for the experiment due to large variability in Indian summer monsoon rainfall and low rainfall over peninsular India, 2) the need to understand cloud microphysics and aerosol impacts to design effective seeding experiments, and 3) the proposed experiment to evaluate potential for rainfall enhancement in seeded clouds using randomized seeding and control cases.
The document discusses tapping skywater or atmospheric moisture through a process called Varunyantra. It summarizes the following key points:
1. Varunyantra involves vaporizing salt through burning biomass or tires to generate thermals that carry the salt particles into clouds and aid rainfall.
2. Initial experiments with Varunyantra in the villages of Sujlegaon and surrounding areas showed successful rainfall results.
3. The document outlines the development of different models for Varunyantra - fixed, portable, and mobile - and proposes its wider adoption to tackle water scarcity issues across India.
Dr. Raja Marathe, an engineer and scientist, conducted a cloud seeding experiment in the village of Sujlegaon, India to address drought conditions. He burned rubber tires mixed with salt, which caused smoke to rise and condense moisture from clouds, producing rain over the village within 3 hours. This brought relief to struggling farmers. Though a simple method, villagers see it as a miracle. The project has now expanded to other nearby drought-stricken areas based on its success.
Cloud seeding for india (an effective weapon to fight the draughts) by prof s...Shreehari Marathe
1. Cloud seeding can help address water scarcity issues by increasing rainfall. Many countries regularly use cloud seeding to augment water supplies for agriculture, drinking water, and hydroelectric power.
2. Water availability is decreasing globally due to population growth and development. By 2025, over a third of the world's population may face "catastrophically low" water supplies under 1000 cubic meters per person per year.
3. Forests help increase rainfall by recycling water through transpiration. Deforestation reduces rainfall and increases risks of drought, flooding, and water scarcity. Reforestation is needed to improve water security in many countries.
The document describes a technique called Varunyantra for cloud seeding and rainfall induction. It involves building large bonfires and sprinkling salt on the flames to generate salt-enriched smoke plumes that rise into the sky. The salt particles act as cloud condensation nuclei, facilitating the coalescence of water droplets in clouds and accelerating the formation of raindrops. Over 500 trials of Varunyantra have achieved an 80% success rate in inducing rainfall. The technique uses inexpensive and readily available materials, making it suitable for widespread implementation.
The document discusses how India is suffering losses from weather-related disasters like drought, untimely rain, floods, fog and cyclones. It proposes setting up a national Doppler radar network to monitor weather across India and neighboring countries. The goal is to develop technologies to control weather and minimize impacts from global warming, droughts and floods through rain initiation, enhancement and stopping. This would include research on mobile launchers, guns, rockets and salt-based ammunition for ground-based cloud seeding directed from a command center using the Doppler radar network.
This document provides information on using flash slides of common objects to teach English vocabulary to children in primary schools. It introduces the purpose of using photographs of everyday items to help children learn nouns, adjectives, numbers, colors and other parts of speech. The document outlines how to use the slides by asking questions about the objects pictured and adjusting the level of questions based on the age and ability of the students. It then lists categories of objects that will be included in the flash slides and provides examples of slides featuring animals and buildings with accompanying teaching questions.
The document appears to be a series of slides describing the development of Varunyantra, a device created by Dr. Marathe to induce rain through cloud seeding. It details experiments conducted from 2009-2010 in various locations in India to test Varunyantra, refine its design, and demonstrate its effects. Key events include early experiments showing increased rain, discussions with scientists, demonstrations to politicians and groups, and tours across Maharashtra to share Varunyantra.
Varunyantra is a new technology developed by Indian scientists to generate electricity from sea waves. It works by using the motion of waves to drive hydraulic motors connected to generators, converting the kinetic energy of the waves into electricity. This technology could provide a clean, renewable source of energy for coastal regions and islands.
This document discusses recent weather modification studies and activities in China. It provides background on China's climate and frequent natural disasters. It then describes China's extensive weather modification program, which has over 37,000 participants conducting precipitation enhancement, hail suppression, and fog dispersal using aircraft, artillery, rockets, and generators. Recent projects include a new Doppler radar network and studies on evaluation techniques, cloud seeding impacts, and aircraft-based cloud observation systems. Weather modification generates large economic benefits and causes no observed environmental impacts.
Cloud Seeding for India (An effective weapon to fight draught) by Prof Shivaj...Shreehari Marathe
1. Cloud seeding is used by over 50 countries to increase rainfall for agriculture and drinking water, disperse fog, increase hydropower generation, suppress hail storms, mitigate drought and the impacts of global warming. Several countries like the US, Australia, and China have benefited greatly from cloud seeding technologies.
2. Rice provides over half the world's population with their primary food source and energy intake. Rice-based agricultural systems employ nearly 1 billion people in rural areas of developing countries. Efficient rice production is essential for economic development and improved quality of life.
3. Water availability per person is declining in many countries due to population growth, urbanization, and industrialization. By 2025, over
This document summarizes the key points from a conference on weather modification techniques in Gadchiroli district, India from July 14, 2010. It discusses Gadchiroli's efforts over the past 10 years to enhance precipitation and suppress hail using artillery shells, rockets, aircraft and ground-based generators. Results include increased rainfall and crop yields, benefiting the local economy. The document also reviews environmental impacts and proposes adjusting methods based on conditions in each target area.
The document presents the science plan for CAIPEEX (Cloud Aerosol Interaction & Precipitation Enhancement Experiment). It discusses 1) the motivation for the experiment due to large variability in Indian summer monsoon rainfall and low rainfall over peninsular India, 2) the need to understand cloud microphysics and aerosol impacts to design effective seeding experiments, and 3) the proposed experiment to evaluate potential for rainfall enhancement in seeded clouds using randomized seeding and control cases.
The document discusses tapping skywater or atmospheric moisture through a process called Varunyantra. It summarizes the following key points:
1. Varunyantra involves vaporizing salt through burning biomass or tires to generate thermals that carry the salt particles into clouds and aid rainfall.
2. Initial experiments with Varunyantra in the villages of Sujlegaon and surrounding areas showed successful rainfall results.
3. The document outlines the development of different models for Varunyantra - fixed, portable, and mobile - and proposes its wider adoption to tackle water scarcity issues across India.
Dr. Raja Marathe, an engineer and scientist, conducted a cloud seeding experiment in the village of Sujlegaon, India to address drought conditions. He burned rubber tires mixed with salt, which caused smoke to rise and condense moisture from clouds, producing rain over the village within 3 hours. This brought relief to struggling farmers. Though a simple method, villagers see it as a miracle. The project has now expanded to other nearby drought-stricken areas based on its success.
Cloud seeding for india (an effective weapon to fight the draughts) by prof s...Shreehari Marathe
1. Cloud seeding can help address water scarcity issues by increasing rainfall. Many countries regularly use cloud seeding to augment water supplies for agriculture, drinking water, and hydroelectric power.
2. Water availability is decreasing globally due to population growth and development. By 2025, over a third of the world's population may face "catastrophically low" water supplies under 1000 cubic meters per person per year.
3. Forests help increase rainfall by recycling water through transpiration. Deforestation reduces rainfall and increases risks of drought, flooding, and water scarcity. Reforestation is needed to improve water security in many countries.
3. ËEò¨ÉiÉ:- 408/-
Price:- 408/-
+lÉÇ ´É ºÉÉÆÎJªÉEòÒ ºÉÆSÉɱÉEò
¨É½þÉ®úɹ]Åõ ¶ÉɺÉxÉ, ¨ÉÖƤÉ<Ç
The Director of Economics and Statistics
Government of Maharashtra, Mumbai
5. PREFACE
This issue of ' Handbook of Basic Statistics of Maharashtra
State' for the year 2007 is the 47th issue in the series. The main
objective of this publication is to present up-to-date statistical
data on various socio-economic aspects of State Economy in a
concise form. In an attempt to use latest available data for this
publication some of the data / estimates used and included is
provisional.
2. For comparison of the socio-economic aspects of the State
with those of India, the relevant data for India have also been
simultaneously depicted in the tables prior to the main tables.
Data on the trends of some selected socio-economic indicators
are presented at the end of this publication.
3. The co-operation extended by various departments of the
State Government, Central Government and autonomous
organisations in bringing out this publication is gratefully
acknowledged.
S.M.Aparajit
Mumbai, Director of Economics and Statistics,
Dated : December, 2009 Government Of Maharashtra
6. ¨É½þÉ®úɹ]ÅõÉSÉÒ ºÉÆÊIÉ{iÉ ºÉÉÆÎJªÉEòÒ 2007
HANDBOOK OF BASIC STATISTICS OF MAHARASHTRA STATE
2007
(´É¹ÉÇ 47) +xÉÖGò¨ÉÊhÉEòÉ/CONTENTS [ Vol. XLVII]
Ê´É¹ÉªÉ {ÉÞ¹`ö Subject
PAGE
|ɺiÉÉ´ÉxÉÉ Preface
oùι]õIÉä{ÉÉiÉ ¨É½þÉ®úɹ]Åõ ®úÉVªÉ — Maharashtra State at a glance —
(I) ºÉɨÉÉxªÉ ¨ÉÉʽþiÉÒ 1 General information
(II) ¦ÉÉ®úiÉɶÉÒ iÉÖ±ÉxÉÉ 2 Comparison with India
1. ½þ´ÉɨÉÉxÉ Climate
1.1. ÊxÉ´Éb÷Eò EåòpùÉÆiÉÒ±É Eò¨ÉÉ±É ´É ÊEò¨ÉÉxÉ 10 Maximum & minimum temperature,
iÉÉ{ɨÉÉxÉ, {ÉɴɺÉÉSÉä Ênù´ÉºÉ +ÉÊhÉ rainy days and annual rainfall at
´ÉÉ̹ÉE {ÉÉ>ðºÉ selected centres
2. IÉäjÉ¡ò³ý +ÉÊhÉ ±ÉÉäEòºÉÆJªÉÉ Area and Population
2.1. {ÉÖ¯û¹É, κjɪÉÉ ´É EÖò]ÖÆõ¤Éä ªÉÉÆSÉÒ ÊVɱ½þÉ´ÉÉ®ú 12 Districtwise number of males,
ºÉÆ J ªÉÉ females and households
2.2. ÊVɱ½þÉ´ÉÉ®ú OÉɨÉÒhÉ ´É xÉÉMÉ®úÒ ±ÉÉäEòºÉÆJªÉÉ 14 Districtwise rural and urban population
2.3. ÊVɱ½þÉ´ÉÉ®ú IÉäjÉ¡ò³ý +ÉÊhÉ ±ÉÉäEòºÉÆJªÉäSÉÒ 16 Districtwise area and population
PÉxÉiÉÉ density
2.4. ÊVɱ½þÉ´ÉÉ®ú ºÉÉIÉ®úiÉäSÉä |ɨÉÉhÉ (]õCEäò) 18 Districtwise percentage of literacy
2.5. 1901 {ÉɺÉÚxÉ ±ÉÉäEòºÉÆJªÉäiÉÒ±É nù¶É´ÉÉ̹ÉEò 20 Decadal variation in population since
¤Énù±É 1901
2.6. ±ÉÉäEòºÉÆJªÉÉ-MÉ]õÉxÉÖºÉÉ®ú xÉÉMÉ®úÒ ±ÉÉäEòºÉÆJªÉÉ 21 Urban population by popualtion size
2.7. ®úÉVªÉÉiÉÒ±É MÉÉ´ÉÆÉSÉä ±ÉÉäEòºÉÆJªÉäxÉÖºÉÉ®ú 22 Classification of villages in the state
´ÉMÉÔEò®úhÉ by population
2.8. BEò ±ÉÉJÉ ËEò´ÉÉ +ÊvÉEò ±ÉÉäEòºÉÆJªÉÉ 28 Cities/Urban Agglomerations
+ºÉ±Éä±ÉÒ ¶É½þ®äú/¶É½þ®ú ºÉÆEÖò±Éä with population of 1,00,000 or above
2.9. EòÉ¨É Eò®úhÉÉ-ªÉÉÆSÉä ´É xÉ Eò®úhÉÉ-ªÉÉÆSÉä ´ÉMÉÔEò®úhÉ 31 Classification of workers and
non-workers
2.10. EòÉ¨É xÉ Eò®úhÉÉ-ªÉÉ ´ªÉHòÓSÉä EòɪÉÇ|ÉEòÉ®úÉxÉÖºÉÉ®ú 32 Classification of persons not at work
´ÉMÉÔEò®úhÉ by type of activity
2.11. +xÉÖºÉÚÊSÉiÉ VÉÉiÉÒ +ÉÊhÉ VɨÉÉiÉÒ ªÉÉÆSÉÒ 34 Population of scheduled castes and
±ÉÉäEòºÉÆJªÉÉ scheduled tribes
2.12. ¨É½þÉ®úɹ]Åõ ®úÉVªÉÉiÉÒ±É +{ÉÆMÉÉÆSÉÒ |ÉEòÉ®úÉxÉÖºÉÉ®ú 36 Disabled population in Maharashtra
ºÉÆ J ªÉÉ State by type of disability
2.13. ´ÉªÉÉäMÉ]õÉxÉÖºÉÉ®ú ±ÉÉäEòºÉÆJªÉÉ 38 Population according to age groups
2.14. vɨÉÉÇxÉÖºÉÉ®ú ±ÉÉäEòºÉÆJªÉÉ 40 Population by religion
7. ii
Ê´É¹ÉªÉ {ÉÞ¹`ö Subject
PAGE
2.15. 2026 {ɪÉÈiÉSÉÒ ´ÉÉ̹ÉEò +ÆnùÉÊVÉiÉ ±ÉÉäEòºÉÆJªÉÉ 41 Annual estimates of population upto 2026
2.16. ®úÉVªÉÉiÉ ºlɱÉÉÆiÉÊ®úiÉ ZÉɱÉ䱪ÉÉ ºjÉÒ-{ÉÖ¯û¹ÉÆÉSÉÒ Æ 42 No. of Inmigrants in the state by sex
ºlɱÉÉÆiÉ®úÉSªÉÉ EòÉ®úhÉÉxÉÖºÉÉ®ú ºÉÆJªÉÉ and reasons for migration
2.17. {ÉÚ´ÉÔSªÉÉ ®úɽþhªÉÉSªÉÉ Ê`öEòÉhÉÉxÉÖºÉÉ®ú 43 Migrants by sex and place of last
ºlɱÉÉÆiÉÊ®úiÉ ºjÉÒ-{ÉÖ¯û¹É residence
2.18. EÖò]ÖÆõ¤Éä ´É iªÉÉÆiÉÒ±É ´ªÉHòÓSÉÒ ¤ÉÉä±ÉhªÉÉSªÉÉ 47 Households and household population
|ɨÉÖJÉ ¦ÉɹÉäxÉÖºÉÉ®ú ºÉÆJªÉÉ by languages mainly spoken
3. ¶ÉäiÉÒ Agriculture
3.1. VÉʨÉxÉÒSÉÉ ´ÉÉ{É®ú 48 Land utilisation
3.2. ÊVɱ½þÉ´ÉÉ®ú ±ÉÉMÉ´Éb÷Ò±ÉɪÉEò IÉäjÉ +ÉÊhÉ ±ÉÉMÉ´Éb÷ 49 Districtwise culturable area and
Eäò±Éä±Éä IÉäjÉ cultivated area
3.3. |ɨÉÖJÉ Ê{ÉEòÉÆJÉɱÉÒ±É IÉäjÉ +ÉÊhÉ iªÉÉÆSÉä =i{ÉÉnùxÉ 51 Area & production of principal crops
3.4. ÊVɱ½þÉ´ÉÉ®ú |ɨÉÖJÉ Ê{ÉEòÉÆJÉɱÉÒ±É IÉäjÉ ´É iªÉÉÆSÉä 52 Districtwise area and production of
=i{ÉÉnùxÉ principal crops
3.5. |ɨÉÖJÉ Ê{ÉEòÉÆSªÉÉ =i{ÉÉnùxÉÉÆSÉä ÊxÉnæù¶ÉÉÆEò 60 Index numbers of production of
principal crops
3.6. ¨ÉÞnÂùºÉÆvÉÉ®úhÉ, VɨÉÒxÉ ºÉÖvÉÉ®úhÉÉ <iªÉÉnùÒ 62 Progress under soil conservation and
ªÉÉäVÉxÉÉÆJÉɱÉÒ±É |ÉMÉiÉÒ land development,etc.
3.7. ®úɺÉɪÉÊxÉEò JÉiÉÉÆSÉä ´ÉÉ]õ{É 63 Distribution of chemical fertilisers
3.8. ¶ÉäiÉÒSÉÒ +´ÉVÉÉ®äú 64 Agricultural implements
3.9. ´ÉÒVÉ {ÉÖ®ú´É`öÉ Eäò±Éä±Éä ¶ÉäiÉÒ{ÉÆ{É 65 Agricultural pumps energised
3.10. ¨É½þÉ®úɹ]ÅõÉiÉÒ±É BEÚòhÉ ´ÉʽþiÉ vÉÉ®úhÉ VÉʨÉxÉÒ, 67 Number, area and average size of
iªÉÉÆSÉä IÉäjÉ ´É ºÉ®úɺɮúÒ operational holdings in Maharashtra
3.11. {ÉÚhÉÇ ZÉɱÉä±Éä {ÉÉ]õ¤ÉÆvÉÉ®äú |ÉEò±{É, iªÉÉÆSÉÒ ÊxĘ́ÉiÉ 68 Irrigated projects completed,
irrigation potential created and
˺ÉSÉxÉIɨÉiÉÉ ´É |ÉiªÉIÉ ËºÉÊSÉiÉ IÉäjÉ actual irrigated area
3.12. ¶ÉɺÉxÉÉSÉä EòɪÉÉÇÎx´ÉiÉ ZÉɱÉä±Éä VɱÉÊ´ÉtÖiÉ 69 Government's hydro-electrical
|ÉEò±{É projects commissioned
4. {ɶÉÖºÉÆ´ÉvÉÇxÉ Animal Husbandry
4.1. {ɶÉÖvÉxÉ 70 Livestock population
4.2. ÊVɱ½þÉ´ÉÉ®ú {ɶÉÖvÉxÉ 74 Districtwise Livestock population
4.3. {ɶÉÖºÉÆ´ÉvÉÇxÉɺÉƤÉÆvÉÒSÉÒ ºÉÆEòÒhÉÇ ¨ÉÉʽþiÉÒ 76 Miscellaneous statistics relating to
animal husbandry
78 Collection and distribution of milk
4.4. ¶ÉɺÉEòÒªÉ ´É ºÉ½þEòÉ®úÒ IÉäjÉÉÆiÉÒ±É nÖùMvÉ by dairies in Government and
¶ÉɳýÉƨÉÉ¡ÇòiÉ ZÉɱÉä±Éä nÖùvÉÉSÉä ºÉÆEò±ÉxÉ ´É Ê´ÉiÉ®úhÉ Co-operative sectors
4.5. nÖùMvÉVÉxªÉ {ÉnùÉlÉÉÈSÉÒ =i{ÉÉnùxÉä ´É nÚùvÉ ¶ÉÒiÉEò®úhÉ 79 Milk products and milk chilling
Eåòpäù centres
8. iii
Ê´É¹ÉªÉ {ÉÞ¹`ö Subject
PAGE
5. ¨ÉiºªÉ´ªÉ´ÉºÉÉªÉ Fisheries
5.1. Ê´ÉÊ´ÉvÉ JÉÉ®ú´ÉhÉ +É´ÉÉ®úÉÆiÉ ZÉɱÉä±ÉÒ ¨ÉɶÉÉÆSÉÒ 80 Quantity of fish brought for curing,
+É´ÉEò,JÉÉ®ú´ÉhªÉɺÉÉ`öÒ ZÉɱÉä±ÉÉ Ê¨É`öÉSÉÉ salt issued and fish cured
´ÉÉ{É® +ÉÊhÉ JÉÉ®ú´É±Éä±Éä ¨ÉɺÉä
5.2. ¨ÉiºªÉ´ªÉ´ÉºÉɪÉɺÉƤÉÆvÉÒSÉÒ ºÉÆEòÒhÉÇ ¨ÉÉʽþiÉÒ 81 Miscellaneous statistics relating to
fisheries
5.3. ¨ÉɺɳýÒSªÉÉ |ÉEòÉ®úÉxÉÖºÉÉ®ú ºÉÉMÉ®úÒ ¨ÉiºªÉÉäi{ÉÉnùxÉ 83 Varietywise marine fish production
5.4. ¨ÉiºªÉÉäi{ÉÉnùxÉÉSÉÉ ´ÉÉ{É®ú (ºÉÉMÉ®úÒ ´É ¦ÉÚVɱÉ) 85 Disposition of fish catch (Marine and inland)
6. ´ÉxÉä Forests
6.1. ´ÉxÉ´ªÉÉ{iÉ IÉäjÉÉÆSÉä ´ÉMÉÔEò®úhÉ 86 Classification of forest areas
6.2. ¨ÉÖJªÉ +ÉÊhÉ MÉÉèhÉ ´ÉxÉÉäi{ÉÉnùxÉä 87 Major and minor forest produce
7. =tÉäMÉ +ÉÊhÉ JÉÉhÉEòÉ¨É Industry and Mining
7.1. SÉɱÉÚ EòÉ®úJÉÉxªÉÉÆSÉä EòɨÉMÉÉ®úÉÆSªÉÉ ºÉÆJªÉäxÉÖºÉÉ®ú 88 Classification of working factories
´ÉMÉÔEò®úhÉ according to working strength
7.2. =tÉäMÉÉÆSªÉÉ |ɨÉÖJÉ MÉ]õÉxÉÖºÉÉ® EòÉ®úJÉÉxªÉÉÆSÉÒ ´É 89 No of factories and average daily
iªÉÉÆiÉÒ±É EòɨÉMÉÉ®úÉÆSÉÒ nèùÊxÉEò ºÉ®úɺɮúÒ ºÉÆJªÉÉ employment there in according
to major groups of industries
7.3. ÊVɱ½þÉ´ÉÉ®ú SÉɱÉÚ EòÉ®úJÉÉxÉä +ÉÊhÉ iªÉÉÆiÉÒ±É 91 Districtwise No.of working factories
EòɨÉMÉÉ®úÉÆSÉÒ nèùÊxÉEò ºÉ®úɺɮúÒ ºÉÆJªÉÉ and average daily No. of workers
7.4. =tÉäMÉ MÉ]õÉxÉÖºÉÉ® =i{ÉÉnùEò ¦ÉÉÆb÷´É±É, 93 Productive capital, output and value
=i{ÉÉnùxÉ +ÉÊhÉ ¨ÉÚ±ªÉ´ÉÞrùÒ added according to Industry Groups
7.5. ºÉÖiÉÒ EòÉ{Éb÷ ÊMÉ®úhªÉÉÆiÉÒ±É ºÉ®úɺɮúÒ MÉè®ú½þVÉä®úÒ 95 Average percentage of absenteeism
(]õCEäò) in the cotton textile industry
7.6. +ÉètÉäÊMÉEò Ê´É´ÉÉnù 96 Industrial disputes
7.7. EòÉ{Éb÷ =tÉäMÉÉSÉÒ ¨ÉÉʽþiÉÒ (ÊMÉ®úhÉÒ Ê´É¦ÉÉMÉ) 97 Working of cotton textile industry
(Mill sector)
7.8. JÉÊxÉVÉ =i{ÉÉnùxÉ 98 Mineral production
7.9. +ÉètÉäÊMÉEò =i{ÉÉnùxÉ 99 Industrial production
8. ´ÉÒVÉ Electricity
8.1. Ê´ÉVÉäSÉÒ ºlÉÉÊ{ÉiÉ IɨÉiÉÉ, =i{ÉÉnùxÉ +ÉÊhÉ 100 Installed capacity, generation and
´ÉÉ{É®ú consumption of electricity
101 No. of Towns and villages
8.2. Ê´ÉtÖiÉÒEò®úhÉ ZÉɱÉ䱪ÉÉ xÉMÉ®úÉÆSÉÒþ ´É JÉäb÷ªÉÉÆSÉÒ
ºÉÆ J ªÉÉ electrified
9. iv
Ê´É¹ÉªÉ {ÉÞ¹`ö Subject
PAGE
9. ºÉƪÉÖHò ¦ÉÉÆb÷´É±ÉÒ ºÉƺlÉÉ Joint Stock Companies
9.1. 31 ¨ÉÉSÉÇ 2006 ®úÉäVÉÒ SÉɱÉÚ +ºÉ±É䱪ÉÉ ºÉƪÉÖHò 103 Number of joint stock companies as
¦ÉÉÆb÷´É±ÉÒ ºÉƺlÉÉ on 31st March 2006
10. ¤ÉÄEòÉ Banks
10.1. ¤ÉÄEò EòɪÉÉDZɪÉä +ºÉ±É䱪ÉÉ Ê`öEòÉhÉÉÆSÉÒ ´É 105 Districtwise no. of places having banking
¤ÉÄ E ò EòɪÉÉDZɪÉÉÆSÉÒ ÊVɱ½þÉ´ÉÉ®ú ºÉÆJªÉÉ offices & number of banking offices
11. ºÉ½þEòÉ®ú Co-operation
11.1. ¨É½þÉ®úɹ]Åõ ®úÉVªÉÉiÉÒ±É ºÉ½þEòÉ®úÒ ºÉƺlÉÆɤÉɤÉiÉSÉÒ 107 Details of Co-operative societies in
¨ÉÉʽþiÉÒ Maharashtra State
12. {ÉÊ®ú´É½þxÉ +ÉÊhÉ nù³ýhɴɳýhÉ Transport and Communications
12.1. ®úºiªÉÉÆSÉä |ÉEòÉ®ú ´É {ÉÞ¹`ö¦ÉÉMÉÉxÉÖºÉÉ® ®úºiªÉÉÆSÉÒ 108 Road length according to types of road
±ÉÉƤÉÒ and surface
12.2. ¨É½þÉ®úɹ]Åõ ®úÉVªÉ ¨ÉÉMÉÇ {ÉÊ®ú´É½þxÉ ¨É½þɨÉÆb÷³ýÉSÉÒ 109 Operational statistics of Maharashtra
´ÉɽþiÉÚEòʴɹɪÉEò +ÉEòbä÷´ÉÉ®úÒ State Road Transport Corporation
12.3. ´ÉÉ{É®úÉiÉ +ºÉ±Éä±ÉÒ ¨ÉÉä]õÉ®ú ´ÉɽþxÉä 110 Motor vehicles in operation
12.4. {ÉÊ®ú´É½þxÉÉSÉÒ ´É <iÉ®ú ´ÉɽþxÉä 111 Transport & non-transport vehicles
12.5. ´ÉɽþxÉ SÉɱÉEòÉÆSÉä ´ªÉɴɺÉÉʪÉEò ´É ʤÉMÉ®ú- 112 Professional and non-professional
´ªÉɴɺÉÉʪÉEò {É®ú´ÉÉxÉä driving licences
12.6. ±ÉÉä½þ¨ÉÉMÉÉÇSÉÒ ±ÉÉƤÉÒ 113 Railway route length
12.7. ]õ{ÉÉ±É EòɪÉÉDZɪÉä ´É iÉÉ®ú EòɪÉÉDZɪÉÉÆSÉÒ ºÉÆJªÉÉ 114 Number of post offices and
telegraph offices
13. VɽþÉVÉ ´ÉɽþiÉÚEò Shipping
13.1. ¨ÉÖ¤É<Ç ¤ÉÆnù®úÉiÉ |É´Éä¶É Eäò±É䱪ÉÉ VɽþÉVÉÉÆSÉÒ ºÉÆJªÉÉ
Æ 115 Number and tonnage of vessels
´É ´ÉVÉxÉ entered in Mumbai Port
13.2. ¨ÉÖƤÉ<Ç ¤ÉÆnù®úɨÉvªÉä MÉÉätÉ +ÉÊhÉ ¤ÉÆnù®äú ªÉälÉÚxÉ 116 Cargo handled at the docks and
½þ±ÉʴɱÉä±ÉÉ ¨ÉÉ±É Port in Mumbai Port
13.3. ÊxÉ´Éb÷E MÉÉèhÉ ¤ÉÆnù®úÉÆiÉÚxÉ ½þ±ÉʴɱÉä±ÉÉ 117 Cargo (imports and exports) handled
(+ɪÉÉiÉ ´É ÊxɪÉÉÇiÉ) ¨ÉÉ±É at the selected minor ports
118 Passenger traffic at the minor ports
13.4. MÉÉèhÉ ¤ÉÆnù®úÉÆiÉÚxÉ ½þÉähÉÉ®úÒ |É´ÉɺÉÒ ´ÉɽþiÉÚEò
14. näù¶ÉÉÆiÉMÉÇiÉ ´ªÉÉ{ÉÉ®ú Inland Trade
14.1. ¨É½þÉ®úɹ]ÅõÉSÉÉ näù¶ÉÉiÉÒ±É <iÉ®ú ®úÉVªÉÉƶÉÒ ZÉɱÉä±ÉÉ 119 Inland Trade of Maharashtra
´ªÉÉ{ÉÉ®ú
10. v
Ê´É¹ÉªÉ {ÉÞ¹`ö Subject
PAGE
15. ʶÉIÉhÉ Education
15.1. ʶÉIÉhÉÉSªÉÉ |ÉEòÉ®úÉxÉÖºÉÉ®ú ºÉƺlÉÉÆSÉä ´É 121 Institutions and enrolment by type of
Ê´ÉtÉlªÉÉÈSÉä ´ÉMÉÔEò®úhÉ education
15.2. ÊVɱ½þÉ´ÉÉ®ú |ÉÉlÉʨÉEò ´É ¨ÉÉvªÉʨÉEò ʶÉIÉhÉ 124 Districtwise primary and secondary
education
15.3. ¶ÉɺÉEòÒªÉ ´É +¶ÉɺÉEòÒªÉ +ÉètÉäÊMÉEò 126 Number of Government and Non-
|ÉʶÉIÉhÉ ºÉƺlÉÉÆSÉÒ ºÉÆJªÉÉ ´É |ÉʶÉIÉhÉÉlÉÕSªÉÉ Government industrial training
|ÉʶÉIÉhÉÉlÉÕSªÉÉ ¨ÉÆVÉÚ®ú VÉÉMÉÉ institutions and seats sanctioned
15.4. ¶ÉɺÉEòÒªÉ ´É +¶ÉɺÉEòÒªÉ +ÉètÉäÊMÉEò 127 Results of the final examinations of
|ÉʶÉIÉhÉ ºÉƺlÉÉÆSªÉÉ +ÆÊiÉ¨É {É®úÒIÉÉÆSÉä Government and non-Government
ÊxÉEòÉ±É Industrial Training Institutes(I.T.I.s)
15.5. ʶÉEòÉ>ð =¨Éänù´ÉÉ®úÉÆSÉÒ ´ÉMÉÇ´ÉÉ®úÒ 128 Classification of apprentice trainees
15.6. ¨ÉÉvªÉʨÉEò ´É =SSɨÉÉvªÉʨÉEò iÉÆjÉʶÉIÉhÉ 129 Secondary and higher secondary
¶ÉɳýÉ ´É Ê´ÉtÉlÉÔ ºÉÆJªÉÉ technical schools and students
15.7. iÉÉÆÊjÉEò +ÉÊhÉ ´ªÉ´ÉºÉÉªÉ +¦ªÉɺÉGò¨É 130 Technical and vocational institutes
|ÉEòÉ®úÉxÉÖºÉÉ®ú ºÉƺlÉÉ ´É iªÉÉÆiÉÒ±É according to type of syllabus
|É´Éä¶ÉIɨÉiÉÉ and their intake capacity
15.8. |ɨÉÉhÉ{ÉjÉ +¦ªÉɺÉGò¨É ʶÉEòÊ´ÉhÉÉ-ªÉÉ 132 Number of Government and non-
¶ÉɺÉEòÒªÉ ´É +¶ÉɺÉEòÒªÉ ºÉƺlÉÉ ´É Government institutions teaching
iªÉÉÆ i ÉÒ±É Ê´ÉtÉlªÉÉÈ S ÉÒ |É´Éä ¶ ÉIɨÉiÉÉ certificate course and their intake
capacity
16. VÉÒ´ÉxÉʴɹɪÉEò +ÉEòbä÷´ÉÉ®úÒ Vital Statistics
16.1. ÊxÉ®úÊxÉ®úɲªÉÉ {ÉrùiÉÒÆxÉÖºÉÉ®ú EÖò]ÖÆõ¤É ÊxɪÉÉäVÉxÉ 134 Districtwise number of persons using
Eò®ú h ÉÉ-ªÉÉÆ S ÉÒ ÊVɱ½þÉ´ÉÉ®ú ºÉÆJªÉÉ various family planning methods
16.2. xɨÉÖxÉÉ xÉÉånùhÉÒ {ÉrùiÉÒxÉä EòÉfø±Éä±Éä VÉx¨É, 136 Birth, Death and Infant Mortality
¨ÉÞiªÉÚ ´É ¤ÉɱɨÉÞiªÉÚ nù®ú Rates by Sample Registration System
16.3. ={ɱɤvÉ ´ÉètEòÒªÉ ºÉÖÊ´ÉvÉÉ 137 Medical facilities available
17. {ÉÉä±ÉÒºÉ +ÉÊhÉ MÉÖx½äþ Police and Crimes
17.1. {ÉÉä±ÉÒºÉ º]äõ¶ÉxÉä +ÉÊhÉ {ÉÉäʱɺÉÉÆSÉÒ ºÉÆJªÉÉ 138 Police stations and police forces
17.2. ¦ÉÉ®úiÉÒªÉ nÆùb÷ºÉÆʽþiÉäJÉɱÉÒ ZÉɱÉä±Éä nùJɱÉ{ÉÉjÉ 139 Cognizable offences (including
MÉÖx½äþ (MÉÖxÁÉÆSÉä |ɪÉixÉ vÉ°üxÉ) attempts) under Indian Penal Code
18. EòÉ®úÉMÉÞ½äþ Prisons
18.1. EòÉ®úÉMÉÞ½þÉÆSÉÒ ´É EèòtÉÆSÉÒ ºÉÆJªÉÉ 140 Number of prisons and convicts
11. vi
Ê´É¹ÉªÉ {ÉÞ¹`ö Subject
PAGE
19. PÉ®ú¤ÉÉÆvÉhÉÒ Housing
19.1. PÉ®úÉÆSÉÒ ´ÉÉ{É®úÉxÉÖºÉÉ®ú Eäò±Éä±ÉÒ ´ÉMÉÇ´ÉÉ®úÒ 141 Classification of houses according to use
19.2. ´ÉÉ{É®úÉiÉÒ±É JÉÉ䱪ÉÉÆSªÉÉ ºÉÆJªÉäxÉÖºÉÉ®ú 143 Classification of households according
EÖò]ÖÆõ¤ÉÉÆSÉä ´ÉMÉÔEò®úhÉ to rooms occupied
19.3(A) ®úɽþiªÉÉ PÉ®úÉSªÉÉ Uô{{É®úÉƺÉÉ`öÒ ´ÉÉ{É®ú±É䱪ÉÉ 144 Classification of households by
|ɨÉÖJÉ ºÉÉvÉxÉÉÆxÉÖºÉÉ®ú EÖò]ÖÆõ¤ÉÉÆSÉä ´ÉMÉÔEò®úhÉ predominent material of roof of
house occupied
19.3(B) ®úɽþiªÉÉ PÉ®úÉSªÉÉ Ë¦ÉiÉÓºÉÉ`öÒ ´ÉÉ{É®ú±É䱪ÉÉ 144 Classification of households by
|ɨÉÖJÉ ºÉÉvÉxÉÉÆxÉÖºÉÉ®ú EÖò]ÖÆõ¤ÉÉÆSÉä ´ÉMÉÔEò®úhÉ predominent material of walls of
house occupied
19.4. ¤ÉäPÉ®ú ´É ºÉƺlÉÉÆiÉ ®úɽþhÉÉ®äú ±ÉÉäEò 146 Houseless and institutional population
19.5. JÉÉ䱪ÉÉÆSªÉÉ ºÉÆJªÉäxÉÖºÉÉ®ú EÖò]ÖÆõ¤ÉÉÆSÉÒ ºÉÆJªÉÉ 148 Households by number of rooms occupied
20. ºlÉÉÊxÉEò º´É®úÉVªÉ ºÉƺlÉÉ Local Self-Govt. Institution
20.1. OÉɨÉ{ÉÆSÉɪÉiÉÓSÉÒ ´ªÉÉ{iÉÒ, º´ÉÊxĘ́ÉiÉ =i{ÉzÉ 152 Coverage, self-raised income and
+ÉÊhÉ JÉSÉÇ expenditure of Village Panchayats
20.2. xÉMÉ®ú{ÉÊ®ú¹ÉnùÉƤÉɤÉiÉ ¨ÉÉʽþiÉÒ 153 Constitution of Municipal Councils
20.3. ¨É½þÉxÉMÉ®ú{ÉÉʱÉEòÉƤÉɤÉiÉ ¨ÉÉʽþiÉÒ 155 Constitution of Municipal Corporations
20.4. xÉMÉ®ú{ÉÊ®ú¹ÉnùÉÆSÉä ´É ¨É½þÉxÉMÉ®ú{ÉÉʱÉEòÉÆSÉä 156 Income and expenditure of Municipal
=i{ÉzÉ ´É JÉSÉÇ Councils and Municipal Corporations
20.5. ÊVɱ½þÉ {ÉÊ®ú¹ÉnùÉÆSÉä =i{ÉzÉ +ÉÊhÉ JÉSÉÇ 158 Income & expenditure of Zilla Parishads
20.6. ºlÉÉÊxÉEò º´É®úÉVªÉ ºÉƺlÉÉÆSÉÒ |ÉEòÉ®úÉxÉÖºÉÉ® ú ºÉÆJªÉÉ 160 Local Self-Govt. Intitution by types
21. ºÉÉ´ÉÇÊjÉEò ÊxÉ´Éb÷hÉÖEòÉ General Elections
21.1. ºÉÉ´ÉÇÊjÉEò ÊxÉ´Éb÷hÉÖEòÉÆSÉä ÊxÉEòÉ±É 161 Results of general elections
21.2. =¨Éänù´ÉÉ®úÉÆSÉä {ÉIÉ ºÉƱÉMxÉiÉäxÉÖºÉÉ®ú ´ÉMÉÔEò®úhÉ 162 Candidates according to party affiliations
22. ËEò¨ÉiÉ ÊxÉnæù¶ÉÉÆEò Price Indices
22.1. +ÊJÉ±É ¦ÉÉ®úiÉÒªÉ PÉÉ>ðEò ËEò¨ÉiÉÒÆSÉä ÊxÉnæù¶ÉÉÆEò 163 All India wholesale price index
(xÉ´ÉÒxÉ ¨ÉÉʱÉEòÉ) numbers (New Series)
22.2. EòɨÉMÉÉ®úÉÆEòÊ®úiÉÉ OÉɽþEò ÊEòƨÉiÉÒÆSÉä ÊxÉnæù¶ÉÉÆEò 164 Consumer price index numbers for
(xÉ´ÉÒxÉ ¨ÉÉʱÉEòÉ) working class (New Series)
22.3. ¨É½þÉ®úɹ]ÅõÉiÉÒ±É OÉɨÉÒhÉ ¦ÉÉMÉÉiÉÒ±É 166 Consumer price index numbers for
ÊxÉ´Éb÷Eò VÉÒ´ÉxÉɴɶªÉEò ´ÉºiÉÚÆSªÉÉ OÉɽþEò selected essential items for rural
ËEò¨ÉiÉÒÆSÉä ÊxÉnæù¶ÉÉÆEò Maharashtra
22.4. ¨É½þÉ®úɹ]ÅõÉiÉÒ±É xÉÉMÉ®úÒ ¦ÉÉMÉÉiÉÒ±É ÊxÉ´Éb÷Eò 167 Consumer price index numbers for
VÉÒ´ÉxÉɴɶªÉEò ´ÉºiÉÚÆSªÉÉ OÉɽþEò selected essential items for urban
ËEò¨ÉiÉÒÆSÉä ÊxÉnæù¶ÉÉÆEò Maharashtra
12. vii
Ê´É¹ÉªÉ {ÉÞ¹`ö Subject
PAGE
22.5. ÊxÉ´Éb÷Eò EåòpùÉƨÉvÉÒ±É xÉÉMÉ®úÒ ¸ÉʨÉEäòiÉ®ú 168 Consumer price index numbers for
Eò¨ÉÇSÉÉ-ªÉÉÆEòÊ®úiÉÉ OÉɽþEò ËEò¨ÉiÉÒSÉä ÊxÉnæù¶ÉÉÆEò urban non-manual employees at
selected centers
22.6. ¨É½þÉ®úɹ]ÅõÉiÉÒ±É ¶ÉäiɨÉVÉÖ®úÉÆEòÊ®úiÉÉ OÉɽþEò 169 Consumer price index numbers for
ËEò¨ÉiÉÒÆSÉä ÊxÉnæù¶ÉÉÆEò agricultural labourers in Maharashtra
23. ®úÉäVÉMÉÉ®ú Employment
23.1. EòÉ¨É Eò®úhÉÉ-ªÉÉÆSÉä (¶ÉäiÉÒ´ªÉÊiÉÊ®úHò) +ÉètÉäÊMÉEò 170 Industrial classification of persons at
MÉ]õÉxÉÖºÉÉ®ú ´ÉMÉÔEò®úhÉ work (other than cultivators)
23.2. EòÉ¨É Eò®úhÉÉ-ªÉÉÆSÉä (¶ÉäiÉÒ´ªÉÊiÉÊ®úHò) 171 Occupational classification of persons
´ªÉ´ÉºÉɪÉÉxÉÖºÉÉ®ú ´ÉMÉÔEò®úhÉ at work (other than cultivators)
23.3. ®úÉäVÉMÉÉ®ú ´É º´ÉªÉÆ®úÉäVÉMÉÉ®ú ¨ÉÉMÉÇnù¶ÉÇxÉ EåòpùÉƺÉƤÉÆÊvÉiÉ 172 Employment and Self-employment
¨ÉÉʽþ i ÉÒ guidance centre statistics
23.4. ®úÉVªÉ ¶ÉɺÉEòÒªÉ ´É ÊxɨɶÉɺÉEòÒªÉ Eò¨ÉÇSÉÉ®úÒ 173 State Government and Semi
Government employees
23.5. ¸ÉähÉÒ ´É ºÉɨÉÉÊVÉEò MÉ]õÉxÉÖºÉÉ®ú ®úÉVªÉ ¶ÉɺÉEòÒªÉ 175 Grade and Social groupwise State
´É ÊxɨɶÉɺÉEòÒªÉ Eò¨ÉÇSÉÉ®úÒ Government and Semi Government
employees
23.6. ºÉÉ´ÉÇVÉÊxÉEò IÉäjÉÉiÉÒ±É ®úÉäVÉMÉÉ®ú 176 Employment in public sector
23.7. nÖùEòÉxÉä ´É ´ªÉÉ{ÉÉ®úÒ ºÉƺlÉÉ +ÊvÉÊxɪɨÉÉJÉɱÉÒ 178 Employment under Shops and
xÉÉånù±É䱪ÉÉ ºÉƺlÉÉÆiÉÒ±É ®úÉäVÉMÉÉ®ú Commercial Establishments Act.
23.8. ®úÉäVÉMÉÉ®ú ½þ¨ÉÒ ªÉÉäVÉxÉä JÉɱÉÒ PÉähªÉÉiÉ 179 Categorywise number of works and
+ɱÉä±ÉÒ |ÉEòÉ®úÉxÉÖºÉÉ®ú EòɨÉä ´É ªÉÉ´É®úÒ±É JÉSÉÇ expenditure inurred thereon under
the Employment Guarantee Scheme
24. UôÉ{ÉJÉÉxÉä ´É |ÉEòɶÉxÉä Presses and Publications
24.1. UôÉ{ÉJÉÉxÉä, ´ÉiÉǨÉÉxÉ{ÉjÉä, {ÉÖºiÉEäò +ÉÊhÉ 180 Printing presses, newspapers, books
ÊxɪÉiÉEòÉʱÉEäò and periodicals
25. ´ÉÉ̹ÉEò ªÉÉäVÉxÉÉ Annual Plans
25.1. ¨É½þÉ®úɹ]ÅõÉSÉÒ nù½þÉ´ÉÒ {ÉÆSÉ´ÉÉ̹ÉEò ªÉÉäVÉxÉÉ - 182 Tenth Five-Year Plan of
´É¹ÉÇÊxɽþÉªÉ ´É ={É IÉäjÉ ÊxɽþÉªÉ ºÉÖvÉÉÊ®úiÉ Maharashtra Yearwise and sub-
ÊxɪÉiÉ´ªÉªÉ +ÉÊhÉ JÉSÉÇ sectionwise outlay and expenditure
26. ®úÉVªÉ Ê´ÉkÉ State Finance
26.1. ®úÉVªÉÉSÉÒ ¨É½þºÉÖ±ÉÒ VɨÉÉ 184 Revenue receipts of the State
26.2. ¨É½þºÉÖ±ÉÒ ±ÉäJªÉÉ´É®úÒ±É JÉSÉÇ 189 Expenditure on revenue account
26.3. ®úÉVªÉÉSªÉÉ +lÉǺÉÆEò±{ÉÉSÉä {ÉÞlÉ:Eò®úhÉ 200 Analysis of State Government Budget
13. viii
Ê´É¹ÉªÉ {ÉÞ¹`ö Subject
Page
27. ®úÉVªÉ =i{ÉzÉ State Income
27.1. SÉɱÉÚ +ÉÊhÉ ÎºlÉ®ú ËEò¨ÉiÉÓxÉÖºÉÉ®ú ®úÉVªÉ =i{ÉzÉ 202 State income at current and constant
prices
28. ºÉÆEòÒhÉÇ Miscellaneous
28.1. ÊxɪÉÆÊjÉiÉ ¤ÉÉVÉÉ®ú{Éä`öÉ 204 Regulated markets
28.2 ¨É½þÉ®úɹ]ÅõÉiÉÒ±É Ê´É¨ªÉÉSÉÒ ¨ÉÉʽþiÉÒ 208 Insurance in Maharashtra
28.3. {ɪÉÇ]õxÉ Ê´É¦ÉÉMÉÉxÉä ¨ÉÉxªÉiÉÉ Ênù±É䱪ÉÉ ½þÉì]äõ±ÉÉÆSÉÒ 209 Number of hotels approved
ºÉÆ J ªÉÉ by the Tourism Department
28.4. ½þ´ÉÉ<ǨÉÉMÉæ ¨ÉÖƤÉ<ÇºÉ =iÉ®úhÉÉ®äú {É®únäù¶ÉÒ {ɪÉÇ]õEò 210 Foreign tourists disembarking at
Mumbai by air
28.5. EòSSªÉÉ (GÚòb÷) iÉä±ÉÉSÉä =i{ÉÉnùxÉ
211 Production of crude oil
28.6. xÉèºÉÌMÉEò ´ÉɪÉÚSÉä ºÉÉ`äö, BEÚòhÉ =i{ÉÉnùxÉ ´É 212 Reserves, gross production and
´ÉÉ{É®ú utilisation of natural gas
28.7. pù´ÉÒEÞòiÉ {Éä]ÅõÉäÊ±ÉªÉ¨É ´ÉɪÉÚSÉä PÉ®úMÉÖiÉÒ OÉɽþEò 213 LPG domestic customers
29. ÊxÉ´Éb÷Eò ÊxÉnæù¶ÉÉÆEòÉÆSÉÉ Eò±É Trends in selected indicatiors
29.1. ¶ÉäiÉÒ 214 Agriculture
29.2. {ɶÉÖvÉxÉ ´É EÖòCEÖò]õ {ÉɱÉxÉ 218 Livestock and poultry
29.3. =tÉäMÉ +ÉÊhÉ JÉÉhÉEòÉ¨É 220 Industry and mining
29.4. ´ÉÒVÉ 220 Electricity
29.5. ºÉ½þ E òÉ®ú 222 Co-operation
29.6. {ÉÊ®ú´É½þxÉ +ÉÊhÉ nù³ýhɴɳýhÉ 224 Transport and communication
29.7. ʶÉIÉhÉ 224 Education
29.8. +ÊJÉ±É ¦ÉÉ®úiÉÒªÉ PÉÉ>ðEò ËEò¨ÉiÉÓSÉä ÊxÉnæù¶ÉÉÆEò 226 All India wholesale price index
(xÉ´ÉÒxÉ ¨ÉÉʱÉEòÉ) numbers (New Series)
29.9. EòɨÉMÉÉ®úÉÆEòÊ®úiÉÉ OÉɽþEò ËEò¨ÉiÉÓSÉä ÊxÉnæù¶ÉÉÆEò 228 Consumer price index numbers for
(xÉ´ÉÒxÉ ¨ÉÉʱÉEòÉ) working class (New Series)
29.10. ®úÉVªÉ =i{ÉzÉ ((ºÉÖvÉÉÊ®úiÉ ¨ÉÉʱÉEòÉ)) 230 State Income (Revised Series)
14. oùι]õIÉä{ÉÉiÉ ¨É½þÉ®úɹ]Åõ/MAHARASHTRA AT A GLANCE
(I) ºÉɨÉÉxªÉ ¨ÉÉʽþiÉÒ/GENERAL INFORMATION
+xÉÖGò¨ÉÉÆEò ¨ÉÉʽþ i ÉÒ
Serial ¤ÉÉ¤É Particulars Item
No.
(1) (2) (3) (2)
1 ¦ÉÉèMÉÉäʱÉEò ºlÉÉxÉ- Location—
=kÉ®ú +IÉÉÆ¶É .. . .15.45 to 22.0 North latitude (degrees)
{ÉÚ´ÉÇ ®äúJÉÉÆÆ¶É .. . .72.45 to 80.45 East longitude (degrees)
2 ʴɦÉÉMÉ .. .. 6 Number of Divisions
3 ÊVɱ½äþ .. .. 35 Number of Districts
4 iÉɱÉÖEäò .. .. 358 Number of Talukas
5 xÉMÉ®äú † .. .. 378 Number of Towns † .
5.1 ¶É½þ®ú ºÉÆEÖò±Éä † 15 Urban agglomerations †
6 BEò ±ÉÉJÉ ±ÉÉäEòºÉÆJªÉä{ÉäIÉÉ +ÊvÉEò 40 Number of cities having
±ÉÉäEòºÉÆJªÉÉ +ºÉ±Éä±ÉÒ ¶É½þ®äú population more than one
(+xÉÖGò¨ÉÉÆEò 5 ¨ÉvªÉä nù¶ÉÇʴɱÉ䱪ÉÉ lakh (out of the towns against
xÉMÉ®úÉÆ{ÉèEòÒ) † Serial No. 5) †
7 JÉäb÷Ò-- (2001) 43,711 Number of Villages
´ÉºiÉÒ +ºÉ±Éä±ÉÒ .. .. 41,095 Inhabited
´ÉºiÉÒ xɺɱÉä±ÉÒ .. .. 2,616 Un-inhabited
8 IÉäjÉ¡ò³ý (SÉÉè.ÊEò±ÉÉä¨ÉÒ]õ®ú) .. 3,07,713 Area (in Square Kilometers)
9 ºÉ¨ÉÖpù ÊEòxÉÉ-ªÉÉSÉÒ ±ÉÉƤÉÒ .. 720 Length of the Coast-Line
(ÊEò±ÉÉä¨ÉÒ]õ®ú) (Kilometres)
]õÒ{É-- (1) +xÉÖGò¨ÉÉÆEò 8 ÁÉ ¤ÉɤÉÓSÉÒ ¨ÉÉʽþiÉÒ Information against item 8 is
ºÉ´½æþ+®ú VÉxÉ®ú±É, ¦ÉÉ®úiÉ ºÉ®úEòÉ®ú, ªÉÉÆxÉúÒ according to Surveyor General,
Ên±É䱪ÉÉ ¨ÉÉʽþiÉÒxÉÖºÉÉ®ú +ɽäþ Government of India
(2) † 2001 VÉxÉMÉhÉxÉä´É®ú +ÉvÉÉÊ®úiÉ †2001 Population Census
(3) † ¶É½þ®ú ºÉÆEÖò±É-ÁÉiÉ BJÉÉnäù ¶É½þ®ú ´É †Urban agglomeration is
iªÉÉSªÉÉ +ɺÉ{ÉɺÉSÉÉ xÉÉMÉ®úÒ Ê´É¦ÉÉMÉ ËEò´ÉÉ a continuous urban spread
nùÉäxÉ ËEò´ÉÉ +ÊvÉEò VɴɳýVɴɳý +ºÉ±Éä±ÉÒ constituting a town and the
¶É½þ ® ä ú ´É iªÉÉÆ x ÉÉ ±ÉÉMÉÚ x É +ºÉ±Éä ± ÉÉ adjoining urban outgrowth or
+ɺÉ{ÉɺÉSÉÉ xÉÉMÉ®úÒ Ê´É¦ÉÉMÉ +¶ÉÉ |ÉEòÉ®úSÉÉ two or more physically
ºÉÆ{ÉÚhÉÇ xÉÉMÉ®úÒ ]õÉ{ÉÚ ÁÉSÉÉ ºÉ¨ÉÉ´Éä¶É +ɽäþ continuous towns together with
the continuous well recognised
urban outgrowth, if any, of such
towns
15. (II) ¦ÉÉ®úiÉɶÉÒ iÉÖ±ÉxÉÉ/COMPARISON WITH INDIA
¨É½þÉ®úɹ]ÅõÉSÉÒ
+xÉÖ- ¦ÉÉ®úiÉɶÉÒ iÉÖ±ÉxÉÉ
Gò¨ÉÉÆEò (]õCEäò)
Serial ¤ÉÉ¤É {ÉÊ®ú¨ÉÉhÉ ¨É½þÉ®úɹ]Åõ ¦ÉÉ®ú i É Comparison Unit Item
No. Maha- India of Maharashtra
rashtra with India
(Percentage)
(1) (2) (3) (4) (5) (6) (3) (2)
±ÉÉäEòºÉÆJªÉÉ (2001 SÉÒ VÉxÉMÉhÉxÉÉ) POPULATION (2001 Census)
1.1 (+) OÉɨÉÒhÉ ±ÉÉäEòºÉÆJªÉÉ .. ½þVÉÉ®úÉiÉ .. 55,778 7,42,491 7.5 Thousand (a) Rural population
(¤É) OÉɨÉÒhÉ ±ÉÉäEòºÉÆJªÉäSÉä BEÚòhÉ ]õCEäò 57.57 72.18 … Percentage (b) Percentage of rural popula-
±ÉÉäEòºÉÆJªÉä¶ÉÒ ¶ÉäEòb÷É |ɨÉÉhÉ tion to total population
1.2 (+) xÉÉMÉ®úÒ ±ÉÉäEòºÉÆJªÉÉ .. ½þVÉÉ®úÉiÉ .. 41,101 2,86,120 14.3 Thousand (a) Urban population
(¤É) xÉÉMÉ®úÒ ±ÉÉäEòºÉÆJªÉäSÉä BEÚòhÉ ½þVÉÉ®úÉiÉ 42.43 27.82 … Percentage (b) Percentage of urban pop-
±ÉÉäEòºÉÆJªÉä¶ÉÒ ¶ÉäEòb÷É |ɨÉÉhÉ ulation to total population
2
1.3 (+) BEÚòhÉ EÖò]ÖÆõ¤ÉÉÆSÉÒ ºÉÆJªÉÉ .. ½þVÉÉ®úÉiÉ .. 19,577 1,93,580 10.1 Thousand (a) Number of households
(1) OÉɨÉÒhÉ .. " .. 11,174 1,37,747 8.11 Do. (i) Rural
(2) xÉÉMÉ®úÒ .. " .. 8,403 55,833 15.05 Do. (ii) Urban
1.4 (+) BEÚòhÉ ±ÉÉäEòºÉÆJªÉÉ .. " .. 96,879 10,28,610 9.4 Do. (a) Total population
(1) {ÉÖ¯û¹É .. " .. 50,401 5,32,157 9.5 Do. (i) Males
(2) κjɪÉÉ .. " .. 46,478 4,96,453 9.4 Do. (ii) Females
1.5 +xÉÖºÉÚÊSÉiÉ VÉÉiÉÒ Scheduled castes
(+) BEÚòhÉ ±ÉÉäEòºÉÆJªÉÉ " .. 9,882 1,66,636 5.9 Thousand (a) Total population
(¤É) BEÚòhÉ ±ÉÉäEòºÉÆJªÉä¶ÉÒ ]õCEäò 10.2 16.2 … Percentage (b) Percentage to
¶ÉäEòb÷É |ɨÉÉhÉ total population
1.6 +xÉÖºÉÚÊSÉiÉ VɨÉÉiÉÒ Scheduled tribes
(+) BEÚòhÉ ±ÉÉäEòºÉÆJªÉÉ ½þVÉÉ®úÉiÉ .. 8,577 84,326 10.2 Thousand (a) Total population
(¤É) BEÚòhÉ ±ÉÉäEòºÉÆJªÉä¶ÉÒ ]õCEäò 8.9 8.2 … Percentage (b) Percentage to
¶ÉäEòb÷É |ɨÉÉhÉ total population
1.7 (+) BEÚòhÉ ¨ÉÖJªÉiÉ: EòÉ¨É Eò®úhÉÉ®äú . . ½þVÉÉ®úÉÆiÉ .. 3,4748 3,13,005 11.1 Thousand (a) Total main workers
(¤É) BEÚòhÉ ¨ÉÖJªÉiÉ: EòÉ¨É ]õCEäò 35.9 30.4 … Percentage (b) Percentage of total
16. Eò®úhÉÉ-ªÉÉÆSÉä BEÚòhÉ main workers to
±ÉÉäEòºÉÆJªÉä¶ÉÒ ¶ÉäEòb÷É |ɨÉÉhÉ total population
1.8 (+) ºÉÒ¨ÉÉÆÊiÉEò EòÉ¨É Eò®úhÉÉ®äú . . ½þVÉÉ®úÉÆiÉ .. 6,425 89,230 7.2 Thousand (a) Marginal workers
(¤É) ºÉÒ¨ÉÉÆÊiÉEò EòÉ¨É Eò®úhÉÉ-ªÉÉÆSÉää ]õCEäò 6.6 8.6 … Percentage (b) Percentage of
BEÚòhÉ ±ÉÉäEòºÉÆJªÉä¶ÉÒ marginal workers to
¶ÉäEòb÷É |ɨÉÉhÉ total population
1.9 (+) BEÚòhÉ EòÉ¨É xÉ Eò®úhÉÉ®äú .. ½þVÉÉ®úÉÆiÉ .. 55,705 6,26,376 8.9 Thousand (a) Total non-workers
(¤É) BEÚòhÉ EòÉ¨É xÉ Eò®úhÉÉ-ªÉÉÆSÉä ]õCEäò 57.5 60.8 … Percentage (b) Percentage of
BEÚòhÉ ±ÉÉäEòºÉÆJªÉä¶ÉÒ total non-workers
¶ÉäEòb÷É |ɨÉÉhÉ to total population
1.10 ±ÉÉäEòºÉÆJªÉäSÉÒ PÉxÉiÉÉ .. nù®ú SÉÉè®úºÉ ÊEò.¨ÉÒ. 315 324 … Persons per Density of population
ú¨ÉÉMÉä ±ÉÉäEòºÉÆJªÉÉ sq. km.
1.11 ºÉÉIÉ®úiÉäSÉä |ɨÉÉhÉ Literacy percentage—
(1) {ÉÖ¯û¹É .. ]õCEäò 85.97 75.26 … Percentage (i) Males
(2) κjɪÉÉ .. ]õCEäò 67.03 53.67 … Percentage (ii) Females
(3) BEÚòhÉ .. ]õCEäò 76.88 64.84 … Percentage (iii) Persons
1.12 ºjÉÒ-{ÉÖ¯û¹É |ɨÉÉhÉ .. nù®ú 1,000 922 933 … Females per Sex ratio
3
{ÉÖ¯û¹ÉÉƨÉÉMÉä 1,000 males.
κjɪÉÉÆSÉÒ ºÉÆJªÉÉ
1.13 1991-01 ¨ÉvªÉä ZÉɱÉä±ÉÒ ]õCEäò .. 22.73 21.54 … Percentage Percentage growth of
±ÉÉäEòºÉÆJªÉäiÉÒ±É ¶ÉäEòb÷É ´ÉÉfø population during1991-01
Ê]õ{É - * xÉèºÉÌMÉEò +É{ÉkÉÒ¨ÉÖ³äý VÉxÉMÉhÉxÉÉ PÉähÉä ¶ÉCªÉ xÉ ZÉɱÉ䱪ÉÉ MÉÖVÉ®úÉiÉ (ºÉÆ{ÉÚhÉÇ EòSUô ÊVɱ½þÉ, ®úÉVÉEòÉä]õ ÊVɱÁÉiÉÒ±É ¨ÉÉä´ÉÔ, ¨ÉʱɪÉÉ-ʨɪÉÉxÉÉ +ÉÊhÉ ´ÉÆEòÉxÉä®ú.
iÉɱÉÖEäò, VÉɨÉxÉMÉ®ú ÊVɱÁÉiÉÒ±É VÉÉäÊb÷ªÉÉ iÉɱÉÖEòÉ) ´É ʽþ¨ÉÉSÉ±É |Énäù¶É (ÊEòzÉÉä®ú ÊVɱ½þÉ) ªÉÉ ®úÉVªÉÉiÉÒ±É +É{ÉkÉÒOɺiÉ |Énäù¶ÉÉSÉÒ +ÆnùÉÊVÉiÉ ±ÉÉäEòºÉÆJªÉÉ vɯûxÉ.
# {ÉÉÊEòºiÉÉxÉ ´É SÉÒxÉ ªÉÉÆxÉÒ Vɨ¨ÉÚ ´É Eòɶ¨ÉÒ®ú¨ÉvÉÒ±É ¤ÉäEòɪÉnäù¶ÉÒ®ú{ÉhÉä ´ªÉÉ{iÉ Eäò±É䱪ÉÉ |Énäù¶ÉÉSÉä IÉäjÉ¡ò³ý ´É ±ÉÉäEòºÉÆJªÉÉ ´ÉMɳÚýxÉ.
+ MÉÖVÉ®úÉiÉ ´É ʽþ¨ÉÉSÉ±É |Énäù¶ÉÉiÉÒ±É xÉèºÉÌMÉEò +É{ÉkÉÒOɺiÉ ¦ÉÉMÉÉiÉÒ±É BEÚòhÉ ±ÉÉäEòºÉÆJªÉÉ ´É ºÉÉIÉ®ú ±ÉÉäEòºÉÆJªÉÉ ´ÉMɳÚýxÉ.
$ ¨ÉÊhÉ{ÉÚ®ú ®úÉVªÉÉiÉÒ±É ºÉäxÉÉ{ÉiÉÒ ÊVɱÁÉiÉÒ±É ¨ÉɪÉÉä¨ÉÉ®ú¨É, {ÉÉ+Éä¨ÉÉ]õÉ +ÉÊhÉ {ÉÖ¯û±É ={É Ê´É¦ÉÉMÉ ´ÉMɳÚýxÉ.
Note- *Including the estimated population of area attacked by natural calamities of Gujarat (KuchchDistrict,Morvi,
Maliya- Miyana and Wankaner talukas of Rajkot district, Jodiya taluka of Jamnagar) and Himachal Pradesh
(Kinnor Taluka) where census could not be conducted.
# Excluding the area and population of the territory of Jammu & Kashmir illegally occupied by Pakistan and China.
+ Excluding total population and Literates of the areas of Gujarat and Himachal Pradesh affected by natural calamites.
$ Excluding Maomaram, Paomata and Purul Sub-division of Senapati of Manipur.