Thursday, November 16, 2006

Što je Yantra?

Jantra je geometrijski dijagram koji je ucrtan na razlièitim materijalima najèešæe na metalima poput bakra, srebra ili zlata, a može biti i na kamenu, staklu, papiru i sl.
Svaka Jantra sadrži potencijalne energije koje se propisanim metodama mogu probuditi. Kao što recitacija mantre ili molitve oslobaða odreðene suptilne energije tako i Jantra može pomoæi u istom. Može se reæi da je mantra zvuèna prezentacija odreðene energije ili Božanstva, a Jantra grafièka (ili vidljiva) prezentacija iste energije, nešto poput energetskog tijela Božanstva.
Jantra na sanskritu oznaèava "ono što nosi" ili "vozilo"
(*), što znaèi da jantra nosi odreðenu energiju i širi je u prostor u kojem se nalazi. Ako netko u svom domu posjeduje pravilno instaliranu i energiziranu jantru na koju svakodnevno meditira recitirajuæi odgovarajuæu mantru, onda je sasvim sigurno da æe se energija yantre proširiti u prostor u kojem se jantra nalazi i blagotvorno djelovati na onoga tko se u tom prostoru nalazi. Jantra je, dakle, tehnika koja nam na pomaže da ostvarimo svoje težnje, ciljeve i želje.
Kompozicija Jantre
Svaka Jantra se, opæenito, sastoji od okvira Jantre koji je u obliku kvadrata sa èetiri tzv. kapije. Kapije se nalaze sa svake strane po jedna i obièno se prikazuju u obliku slova T iako postoje i drugi oblici. Unutar kvadrata nalaze se kružnice sa nizovima lotosovih latica. U sredini Jantre se obièno nalaze trokuti (ili kvadrati) koji mogu biti poslagani na razlièite naèine, ovisno o vrsti Jantre. U sredini Jantre se nalazi toèka, središte Jantre, koja se naziva "bindu".

(*) Iz "Bhagavad Gite" možemo shvatiti da rijeè yantra znaèi "stroj" ili "mašina", poput npr. automobila. Opisano je da se duša nalazi u tijelu kao što se vozaè nalazi u automobilu. Tijelo je dakle samo stroj koji omoguèava duši djelovanje. Jantra je nalik stroju koji æe nam omoguæiti da ostvarimo svoje težnje i želje, kao što vozaè automobila može lako i udobno stiæi na željeno odredište.
(nazad)
www.dhyansanjivani.org

$$The Mystic Power Yantra$$


Yantras - The Mystic Power
Yantra literally means "Loom, "Instrument or Machine". In actual practice, a Yantra is a symbolic representation of aspects of divinity, usually the Mother Goddess. Yantra is a diagrammatic representation of Mantras. It is an interlocking matrix of geometric figures, circles, triangles and floral patterns that form fractal patterns of elegance and beauty. Although the Yantra is primarily a meditation tool both for serious spiritual seekers as well as sculptors in the classical tradition, its Shakti is also available to new seekers. More

What you Get with your Yantra




Click here for List of all the Yantras

Exclusively Energised Yantras
Rudra Centre's Yantras are sanctified and energized through an elaborate ritual by specialized priests at a temple in Maharashtra, India. The Pranapratistha ritual is performed to infuse the Yantras with "life force" or energies of respective deities. Rudra Centre's energized Yantras can be placed in the temple, above a door or kept at the place of work where, if worshipped with sincere devotion, rewards will unfold. It is important for a Yantra to be energized as it has to be brought "to live" through the specifically prescribed ritual so that it can radiate its beneficence optimally. An un-energized Yantra can be compared to a very complex music system that has been plugged in but not tuned or turned on and the aspirant has no idea which button will activate it. More






Principles of Yantra





Since time immemorial, it is believed that mystical Yantras reveal inner basis of forms and shapes abounding in the universe. Yantras function as revelatory symbols of cosmic truths.




Thus each aspect of the world can be seen in its structural form as a Yantra. Ancient Indian Shilpi-Yogins (Makers of Ritual Art) sought to identify the innermost structures of the universe by concentrating world-appearances. More





Period of Benefits
How soon can one expect to experience the benefits of wearing or installing a Yantra?. Yantras usually takes 45 days but this is a conservative estimate. Some Yantras activate results almost immediately if one's karmic potential is ripe. Others work better over the long term, gradually but steadfastly increasing stages of blessings. Yantras for prosperity and wealth are usually of this category. Hence patience is required. For example, the Lord Kuber Yantra may or may not bestow immediate results but the patient person will eventually see benefits. More



Read About Different Yantras
Select Yantra Baglamukhi Yantra Batukbhairav Yantra Bhuvaneshwari Yantra Buddh Yantra Chandra Yantra Das Mahavidyas Yantra Dhumavati Yantra Durgabisa Yantra Ganesh Yantra Gayatri Yantra Guru Yantra Hanuman Yantra Kaalsarp Yantra Kamakshi Yantra Kamladevi Yantra Katyayani Yantra Ketu Yantra Kuber Yantra Lakshminarayan Yantra Mahakali Yantra Mahalakshmi Yantra Mahamrityunjaya Yantra Mahasudarshan Yantra Mangal Yantra Manokamna Yantra Matangi Yantra Navgraha Yantra Rahu Yantra Ramraksha Yantra Rognivaran Yantra Saraswati Yantra Sarvasiddhi Maha Yantra Shani Yantra Shiva Yantra Shree Yantra Shukra Yantra Surya Yantra Swastik Yantra Tara Yantra Vaastu Yantra Vahandurghatna Yantra Vashikaran Yantra Vyaparvridhi Yantra

Worship of Yantras
For those who prefer simple worship of a Yantra, traditionally a small lighted oil-lamp or ghee lamp placed in front of the Yantra is regarded as the best form of simple worship. The lighting of incense of various types is also well regarded as is the auditory stimuli of chanting Mantras or playing tapes of sacred chants. As Yantras are living energy systems, they respond to all sensory stimuli. Perfume is perceived as a vain affectation and is to be avoided especially as most perfumes consist of synthetic components. More





Yantra FAQs


How do the Yantras work?
How is Yantra made?
What are the uses of Yantra?
Are all Yantras connected to Mother Goddess?



What is inscribed on Yantras?
What are the mythological merits?
Do Yantras represent only Deity?
How are Mantra & Yantra associated with each other?

Click for Answers




Positioning of Yantras
It is generally recommended that a Yantra be placed in the north/north-west direction facing the south/south-east direction in a room. However, this rule of thumb does not apply to the Vaastu Yantra as it is supposed to be placed in the south-west corner of the house, facing north-east. The Sri Yantra is supposed to be placed in the east, facing west. The Lord Kuber Yantra should be positioned in the north facing south or in the east facing west. More



Prohibitions

Rudra Centre does not suggest strict prohibitions and leaves it to the wearer's discretion and comfort levels. Associated ancient literature on the subject of prohibitions is not authoritative and indeed sometimes seem mutually contradictory. Generally some individuals prefer to take off their Yantra Pendants and wear them again after taking a bath. More


www.dhyansanjivani.org

YANTRA CHEMISTRY

Brief CVVasil D. Simeonov (b. 1944). Ph.D. in Analytical Chemistry (1980) from University of Sofia, Bulgaria. Associate Professor of Analyical Chemistry (1988). D. Sci. in Analytical Chemistry (2000) from University of Sofia, Full Professor of Analyical Chemistry (2001). Lecturing in analytical chemistry, chemometrics and environmetrics. Invited lecturer and visiting professor in the field of analytical chemistry and chemometrics at over 40 scientific meetings and universities in Belgium, Greece, Austria, Germany, USA. Publications: over 100 articles and 3 monographs on analytical chemistry and chemometrics and environmetrics. Author of 12 popular-science books. Research InterestsChemometrics; environmetrics; multivariate calibration; classification, interpretation and modeling of environmental data sets; evaluation and optimization of analytical procedures; potentiometry with ion selective electrodes; atmospheric and marine chemistry. MonographsR. Khristova, V. Simeonov, “Potentiometry” [in Bulgarian], Nauka i Izkustvo, Sofia, 1983, 180 pp. --------------------------------------------------------------------------------Page 2 V. Simeonov, “Principles of Analytical Data Treatment” [in Bulgarian], Sofia UniversityPress, Sofia, 1987 (1st edn.), 1998 (2nd edn.), 162 pp. V. Simeonov, “Information Aspects of the Chemical Analysis”, [in Bulgarian], Teaching Technologies, Sofia, 1999, 142 pp. Representative Recent PublicationsS. Nikolova Eddins, S. Tsakovski, V. Simeonov. Application of Multivariate Statistics to Assess Seasonal and Spatial Distribution of Dissolved Organic Carbon in Winyah Bay, USA.Tox. Envir. Chem., 82, 2001,112 -122.V. Simeonov, H. Puxbaum, S. Tsakovski, C. Sarbu, M. Kalina. Classification and Receptor Modeling of Wet Precipitation Data from Central Austria (1984-1993). Environmetrics, 10 , 1999,137-152.H. Puxbaum, V. Simeonov, M. Kalina. Ten Years Trends (1984 - 1993) in the Precipitation Chemistry in Central Austria. Atmospheric Environment, 32, 1998, 193-202.M. Kalina, H.Puxbaum, S. Tsakovski, V. Simeonov, Time trends in the concentrations of lead in wet precipitation from rural and urban sites in Austria. Chemosphere, 38, 1999, 2509-2515.S.Tsakovski and V. Simeonov. Chemometric Study of Atmospheric Wet and Dry Precipitates from an Urban Region, Tox. Envir. Chem., 65, 1998, 203-216.S.Tsakovski, V. Simeonov and S. Stefanov. Time-series Analysis of Long-term Water Quality Records from Yantra River Basin, Bulgaria. Fresenius Envir. Bull., 8, 1999, 28-36.S. Stefanov, V. Simeonov and S. Tsakovski. Chemometrical Analysis of Waste Water Monitoring Data from Yantra River Basin, Bulgaria. Tox. Envir. Chem., 70, 1999, 473-482.V.Simeonov, I. Stanimirova and S. Tsakovski. Multivariate Statistical Interpretation ofCoastal Sediment Monitoring Data. Fresenius J.Anal.Chem.,370, 2001, 719-722.V. Simeonov, S. Stefanov and S. Tsakovski. Environmerical Treatment of Water Quality Survey Data from Yantra River, Bulgaria. Mikrochim. Acta, 134 (1-2), 2000, 15-21.V. Simeonov, S. Tsakovski and D.L. Massart. Multivariate Statistical Modeling of CoastalSediment Data. Tox. Envir. Chem., 72, 1999, 81-92.V. Simeonov, D.L. Massart, G. Andreev and S. Tsakovski. Assessment of Metal Pollution based on multivariate statistical Modeling of “hot spot” sediments from the Black Sea,Chemosphere, 41(9), 2000, 1411-1417.V.Simeonov, P. Barbieri, B. Walczak, D. L. Massart and S. Tsakovski. Environmetric Modeling of a Pot Water Data Set, Tox. Envir. Chem.,79, 2001, 55-72.--------------------------------------------------------------------------------Page 3 V.Simeonov, G. Andreev, D. L. Massart and S. Tsakovski. Environmetrical Interpretation of Analytical Data of Marine Organisms from the Black Sea, Tox. Envir. Chem.,80, 2001, 53-65.S. S. Timofeeva, S. A. Medvedeva, I. V. Volchatova and V. S. S. Timofeeva, S. A.Medvedeva, I. V. Volchatova and V. Simeonov. Chemical Transformation of Lignin in the process of microbial treatment. Tox. Envir. Chem., 71 (1-2), 1999, 95-103.V.Simeonov. Classification Methods, Encyclopedia of Environmetrics, J. Wiley & Sons,N.Y.2001,S.Tsakovski, H. Puxbaum, V. Simeonov, M. Kalina, H. Löffler, G.Heimburger, P. Biebl, A. Weber and A. Damm. Trend, Seasonality and Multivariate Modelling Study of WetPrecipitation Data from the Austrian Monitoring Network (1990-1997), J. Environ. Monit.,2, 2000, 424-431.H. Puxbaum, V. Simeonov. Application of Ion-Selective Electrodes in Air Pollution Control. Hung. Sci. Instr., 41, 1977, 17-21. V. Simeonov. Critical Considerations on the Practical Application of Orion Ion-Selective Electrodes to Sea and other Natural Water Samples. Fresenius Z. Anal. Chem., 301, 1980, 290-293. G. Andreev, V. Simeonov. Distribution and Correlation of Elements in Waters, Suspensions,Sediments and Marine Organisms from the Black Sea. Tox. Envir. Chem., 28, 1990, 1-9. G. Andreev, V. Simeonov. A Rapid Survey of the Ecological Situation in a Region from theSouth - Western Part of the Black Sea. Tox. Envir. Chem., 33, 1991, 239-254. G. Andreev, V. Simeonov, S. Stoikov. Occurrence and Distribution of Heavy metals in Benthic Organisms from the Black Sea., Tox. Envir. Chem., 45, 1994, 167-171. Karadjova, P. Mandjukov, S. Tsakovski, V. Simeonov, J. Stratis, G. Zachariadis. Determination of Mercury by Electrothermal Atomic Absorption Spectrometry usingDifferent Chemical Modifiers or a Slurry Technique. J. Anal. At. Spectrom., 10, 1995, 1065-1068. V. Simeonov. Evaluation of Different Instrumental and Chemical Parameters in Analytical Determinations by the Use of Experimental Design Methods. Fresenius Z. Anal. Chem., 322, 1985, 194-197. R. Kellner, F. Kashofer, V. Simeonov. Contribution to the Error Estimation in FTIR-ATR-Absorbance Subtract Experiments on Thin Polymer Films. Fresenius Z. Anal. Chem., 325,1986, 258-262. M. Karadjov, V. Simeonov. Interpretation of Geochemical Data by the Use of MultivariateData Analysis. Mikrochim. Acta, III, 1990, 191-199. --------------------------------------------------------------------------------Page 4 V. Simeonov, G. Andreev. Some Considerations on the Element Relationship in Glacier Snow Samples. Tox. Envir. Chem., 33, 1991, 255-259. V. Simeonov, G. Andreev, M. Karadjov. Chemometrical Interpretation of Analytical Data for Vertical Distribution of some Chemical Components in Sea Water. Fresenius J. Anal. Chem., 345, 1993, 744-747. P. Mandjukov, E. Vassileva, V. Simeonov. Regular Solution Theory in Model Investigationof the Analyte Losses during Preatomization Sample Treatment in Presence of Chemical Modifiers in Electrothermal Atomization Atomic Absorption Spectrometry. Anal. Chem., 64,1992, 2596-2603. V. Simeonov, R. Tsitourodou, C. Samara, M. Karadjov, A. Andreev. Chemometrical Approach to Study Rain Composition from the Region of Thessaloniki, Greece. Tox. Envir.Chem., 46, 1994, 97-106. C. Samara, G. Katsoulos, R. Tsitouridou, V. Simeonov. Interpretation of Air Particulate Data from Thessaloniki, Greece using Multivariate Statistics. Tox. Envir. Chem., 52, 1995, 77-84. J. Stratis, R. Tsitouridou, V. Simeonov. Chemometrical Data Treatment to Study Environmental Pollution around Lignite Power Plants. Tox. Envir. Chem., 47, 1995, 71-76. J. Stratis, R. Tsitouridou, V. Simeonov. Chemometrical Classification of Aerosol Analytical Data. Tox. Envir. Chem., 47, 1995, 191-196. J. Stratis, G. Zachariadis, V. Simeonov. Classification of Macedonian Early Bronze AgeCeramics using their Various Chemical and Technological Features. Fresenius J. Anal.Chem., 351, 1995, 697-699. V. Simeonov, E. Adam, S. Tsakovski, P. Mandjukov, J. Stratis. Chemometrical Analysis and Quality Control of Pot Water and its Sources from Athens, Greece. Tox. Envir. Chem., 50, 1995, 57-71. P. Mandjukov, S. Tsakovski, V. Simeonov, J. Stratis. A Solid Solution Theory for Matrix Modification in Electrothermal AAS. Spectrochim. Acta, 50B, 1995, 1733-1746. J. Stratis, V. Simeonov, G. Zachariadis, T. Sawidis, P. Mandjukov, S. Tsakovski. Chemometrical Approaches to Evaluate Analytical Data from Aquatic Macrophytes and Marine Algae. Fresenius J. Anal. Chem., 355, 1996, 65-70. S.Tsakovski, V. Simeonov, P. Mandjukov, G. Andreev. Multivariate Statistical Analysis of Heavy Metals Distribution in Benthic Organisms. Tox. Envir. Chem., 54, 1996, 39-49. J. Stratis, G. Zachariadis, V. Simeonov, P. Mandjukov, T. Sawidis. Chemometrical Classification of Biomonitoring Analytical Data for Heavy Metals. Part I. Trees (Leaves) as Bioindicators. Tox. Envir. Chem., 54, 1996, 29-37. --------------------------------------------------------------------------------Page 5 S. Tsakovski, V. Simeonov, Th. Sawidis, G. Zachariadis, J. Stratis. Chemometrical Classification of Biomonitoring Analytical Data for Heavy Metals. Part II. Mosses as Bioindicators. Tox. Envir. Chem., 69, 1999, 287-294. J.A. Stratis, S. Tsakovski, V. Simeonov, G. Zachariadis, T. Sawidis. Chemometrical Classification of Biomonitoring Analytical Data for Heavy Metals. Part III. Lichens asBioindicators. Tox. Envir. Chem., 69, 1999, 295-304. S. Nikolova Eddins, S. Tsakovski, V. Simeonov, D.F. Williams. Evaluation of Bottom Sediment Data from the Winyah Bay Estuarine System. Tox. Envir. Chem., 70, 1999, 461-472. V. Simeonov, H. Puxbaum, S. Tsakovski, C. Sarbu, M. Kalina. Classification and Receptor Modeling of Wet Precipitation Data from Central Austria (1984-1993). Environmetrics, 10 , 1999, 137-152. H. Puxbaum, V. Simeonov, M. Kalina. Ten Years Trends (1984 - 1993) in the Precipitation Chemistry in Central Austria. Atmospheric Environment, 32, 1998, 193-202. M. Kalina, H. Puxbaum, S. Tsakovski, V. Simeonov, Time trends in the concentrations of lead in wet precipitation from rural and urban sites in Austria. Chemosphere, 38, 1999, 2509-2515. S.Tsakovski and V. Simeonov. Chemometric Study of Atmospheric Wet and Dry Precipitates from an Urban Region, Tox. Envir. Chem., 65, 1998, 203-216. S.Tsakovski, V. Simeonov and S. Stefanov. Time-series Analysis of Long-term Water Quality Records from Yantra River Basin, Bulgaria. Fresenius Envir. Bull., 8, 1999, 28-36. S. Stefanov, V. Simeonov and S. Tsakovski. Chemometrical Analysis of Waste Water Monitoring Data from Yantra River Basin, Bulgaria. Tox. Envir. Chem., 70, 1999, 473-482. Stanimirova, S. Tsakovski and V. Simeonov. Multivariate Statistical Analysis of Coastal Sediment Data. Fresenius J. Anal.Chem., 365, 1999, 480-488. P. Simeonova, S. Tsakovski, P. Mandjukov, V. Simeonov, V. Lovchinov. High-Temperature Superconducting Films - A Multivariate Statistical Approach. Mikrochim. Acta, 124, 1996, 151-165. V. Simeonov, J. Stratis. The Analytical Chemistry as an Information Science. - 15th National Greek Conference in Chemistry, Proceedings, Vol. A, Thessaloniki, 1994, 112-118.
www.dhyansanjivani.org

 

free html hit counter

BLOGGER
Google
 
Web www.dhyansanjivani.org
www.mahayantra.blogspot.com www.infoarticle.com