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Volumetric 3D GeoSEIS model of distribution of cooper mineralization which has been predicted on the basis of the most informative characteristics of multispectral Landsat7ETM + image.
Using 4D GeoSEIS software for multifactor volumetric (structural-geodynamic, geophysical, geochemical and mineralogical) modeling we offer:
Multifactor volumetric structural-geodynamic models “4D GeoSEISM” with exact ranging and forecasting of mineral deposits, low-amplitude tectonics, geophysical anomalies and geologic properties of deep structures, using volumetric interpretation methods of multispectral satellite images for cost-effective geological prospecting.
During 15 years the great number of volumetric structural-geodynamic, geological, geophysical models of ore deposits (Fe-Ti, Cu, Au, Hg, Ni-Cu-Co) and oil-gas deposits (Namibia, Kalimantan, Urals, Ukraine, Timor, Uzbekistan) are created.
Integration of the mineralogical and geochemical data, geophysical maps and multispectral satellite images (Hyperion, ASTER, LANDSAT-7ETM and others) in multifactor volumetric structural-geodynamic models.
4D GeoSEIS software for computer processing of the ASTER and Landsat7ETM images have been used to create the volumetric structural-geodynamic models of the NW Namibia & SE Angola territory to discriminate the high potential concentration of mineral resources based on limited field data in order to aid exploration for new copper and titaniferous magnetite mineralization. The strategy adopted to facilitate this predictive modeling is to develop understanding and testing of a “4D GeoSEIS Model” through research. They allowed calculating the potential resources of commercially important concentration of copper and titaniferous magnetite ores. Several points of Fe-Ti-Cu mineralization predicted by the 4D GeoSEISM had been confirmed by field observations.
Take your geospatial analysis to the next 3D-4D level with 3D-4D GeoSEIS Tomography!
VALIDATION CERTIFICATE for “4D GeoSEIS Tomography” Method (English ver.) www.slideshare.net/JarosloveBondarenko/4-d-geoseissertifi....
*Using 4D GeoSEIS Tomography transformation of various bands of the multispectral imagery of WV-2, the discriminating iron oxides, clay and hydrothermal minerals can be accurately volumetric mapped...
* The results of structural-geodynamic modeling proved possibility of satellite maps creation (Landsat7ETM, ASTER, World View-2…) of low-amplitude tectonics with spatial resolution 1-20-30m/pix for horizontal lines, and 20 cm of fold’s amplitude. The spatial resolution of satellite models and maps on a concrete area exceeded the spatial resolution of mining works plan on the scale 1:5000.
* 3D GeoSEIS Tomography is invaluable for identifying geodynamic zones that may be potential areas for rock bursts, 3D fracture patterns, their density (number of cracks per unit volume) and outline zones of high permeability, shear zones and faults...
Seeking business partners for 3D-4D GeoSEIS Tomography modeling and Monitoring…
Seeking business partners for developing 3D-4D GeoSEIS Tomography transformation of 2D-3D digital (multispectral, radar, geophysical, CT, MRI, Ultrasound) images and video...
* We are looking for investment partnership for developing 6D GeoSEIS Tomography transformation of 3D digital (multispectral, radar, geophysical, CT, MRI, Ultrasound) images and video... If you interest it, please don’t miss this opportunity. Please check of the information:
* Uniqueness of 3D-4D GeoSEIS Tomography technology is determined by algorithms that transforms digital images of physical fields into volumetric space-time models which reflects not only an volumetric structure, but also evolution of field`s structures.
* 6D GeoSEIS Tomography brings 3D scan visualization to a whole 6D volumetric animation level. Its 6D Space-time-based Technology extends the capabilities of volumetric modeling practices – allowing anyone, anywhere to see, explore and share (in real-time) 6D interactive views directly from traditional 3D Seismic, MRI, CT and ultrasound scans…
My Customers & Partners: Institute of Geological Sciences of NAS (National Academy of Sciences of Ukraine), Institute of Geotechnical Mechanics of NAS, Institute of Problems on Nature Management & Ecology of NAS, State Enterprise NIGRI (Mining-Ore Research Institute)...
Publications and scientific reports:
www.cosis.net/members/submissions.php, www.cosis.net/members/submissions.php?user=u8c8d2c4436821...
Certificates:
www.flickr.com/photos/jeisus2012/5531682555/in/photostream , www.slideshare.net/JarosloveBondarenko/4-d-geoseis, foto.mail.ru/mail/jeisus/7/64.html# , foto.mail.ru/mail/jeisus/7/62.html# , foto.mail.ru/mail/jeisus/7/65.html#
Shestopalov V.M., Bondarenko Ya.I., Zayonts I.O., Rudenko Yu.F., Bohuslavsky A.S. Complexation of Structural-Geodynamical and Hydrogeological Methods of Studying Areas to Reveal Geological Structural Perspectives for Deep Isolation of Radioactive Wastes. // Field Testing and Associated Modeling of Potential High-Level Nuclear Waste Geologic Disposal Sites // Berkeley, USA, 1998.
Kolotenko V.P. Bondarenko J.J. Spiritual and Moral aspects of Sustainable Development Theory // Man and City. Towards a Human and Sustainable Development // Napoli, Italy, 2000.
Bondarenko J.J., Risk analysis, synthesis and Spiritual Energy-Information Structure Modeling 'SEISM' to reveal environmental perspectives for isolation of radioactive and hazardous chemical wastes // ECO-INFORMA 2001 // Chicago, USA, 2001.
Bondarenko J. J., The Multifactor Predictive SEIS (GIS) Model of ecological, genetic and population health risk in connection with dangerous bio-geodynamical processes in geopathogenic hazard zones //ECO-INFORMA 2001// Chicago, USA, 2001.
Zayonts I.O., Bondarenko J.J., Slipchenko B., Lysychenko G.V., New approaches to the problem of geoecological risk for urbanized territories // ECO-INFORMA 2001 // Chicago, USA, 2001...
3D GeoSEIS Model & Orthoslice of gravity field (Bouguer anomaly) of the Prutovka gabbro intrusive complex with Cu-Ni-Co-Pt deposit (Ukrainian Cristalline Shield).
Volumetric 3D GeoSEIS model of distribution of Cu-Ni-Co-Pt mineralization has been predicted on the basis of the most informative characteristics of gravity anomaly field images. Certificate of validation 3D GeoSEIS Technology for predicts Ni-Cu-Co deposit: www.flickr.com/photos/jeisus2012/5531682555/in/set-721576... .
Using 4D GeoSEIS software for multifactor volumetric (structural-geodynamic, geophysical, geochemical and mineralogical) modeling we offer:
Multifactor volumetric structural-geodynamic models “4D GeoSEISM” with exact ranging and forecasting of mineral deposits, low-amplitude tectonics, geophysical anomalies and geologic properties of deep structures, using volumetric interpretation methods of multispectral satellite images for cost-effective geological prospecting.
During 22 years the great number of volumetric structural-geodynamic, geological, geophysical models of ore deposits (Fe-Ti, Cu, Au, Hg, Ni-Cu-Co) and oil-gas deposits (Namibia, Kalimantan, Urals, Ukraine, Timor, Uzbekistan) are created.
Integration of the mineralogical and geochemical data, geophysical maps and multispectral satellite images (Hyperion, ASTER, LANDSAT-7ETM and others) in multifactor volumetric structural-geodynamic models.
4D GeoSEIS software for computer processing of the ASTER and Landsat7ETM images have been used to create the volumetric structural-geodynamic models of the NW Namibia & SE Angola territory to discriminate the high potential concentration of mineral resources based on limited field data in order to aid exploration for new copper and titaniferous magnetite mineralization. The strategy adopted to facilitate this predictive modeling is to develop understanding and testing of a “4D GeoSEIS Model” through research. They allowed calculating the potential resources of commercially important concentration of copper and titaniferous magnetite ores. Several points of Fe-Ti-Cu mineralization predicted by the 4D GeoSEISM had been confirmed by field observations.
Take your geospatial analysis to the next 3D-4D level with 3D-4D GeoSEIS Tomography!
VALIDATION CERTIFICATE for “4D GeoSEIS Tomography” Method (English ver.) www.slideshare.net/JarosloveBondarenko/4-d-geoseissertifi....
*Using 4D GeoSEIS Tomography transformation of various bands of the multispectral imagery of WV-2, the discriminating iron oxides, clay and hydrothermal minerals can be accurately volumetric mapped...
* The results of structural-geodynamic modeling proved possibility of satellite maps creation (Landsat7ETM, ASTER, World View-2…) of low-amplitude tectonics with spatial resolution 1-20-30m/pix for horizontal lines, and 20 cm of fold’s amplitude. The spatial resolution of satellite models and maps on a concrete area exceeded the spatial resolution of mining works plan on the scale 1:5000.
* 3D GeoSEIS Tomography is invaluable for identifying geodynamic zones that may be potential areas for rock bursts, 3D fracture patterns, their density (number of cracks per unit volume) and outline zones of high permeability, shear zones and faults...
WHY WAIT FOR YOUR 90% DISCOUNT of 3D-4D GeoSEIS Tomography Modelling & Monitoring?
* The approbation of 3D-4D GeoSEIS Tomography method on any area, as my research at Iron Ore Open Pit №1 of PAO“CGOK” (Krivoy Rog, Ukraine) will be cost only $5000...
* The integrated 3D-4D GeoSEIS Tomography Method is a unique tool of 3D-4D transformations and integration of DEM, airborne thermal & multispectral satellite images, airborne/ground gamma-ray spectrometry, geophysical, geological and geochemical data into multicomponent volumetric 3D-4DGeoSEIST GIS for an exact and cost-effective 4D modelling!
* The prime commercial focus is a consulting service to assist predictive discovery of mineral & oil-gas deposits through application of advanced multicomponent volumetric 4D GeoSEIS Tomography modeling of spectral brightness and geophysical fields to targeting problems. This emerging 4D GeoSEIS technology is starting to be utilized by exploration companies and has the potential to improve the probability of exploration success by reducing the time and cost involved in discovery.
Volumetric 3D GeoSEIS Models of the gravity anomaly field (Bouguer anomaly) of Bobrikovskiy gold deposit prospected area (Nagolny Cryazh, Donbass, Ukraine)
Volumetric 3D GeoSEIS model of distribution of Cu-Pb-Zn-Au mineralization has been predicted on the basis of the most informative characteristics of gravity anomaly field images.
Using 4D GeoSEIS software for multifactor volumetric (structural-geodynamic, geophysical, geochemical and mineralogical) modeling we offer:
Multifactor volumetric structural-geodynamic models “4D GeoSEISM” with exact ranging and forecasting of mineral deposits, low-amplitude tectonics, geophysical anomalies and geologic properties of deep structures, using volumetric interpretation methods of multispectral satellite images for cost-effective geological prospecting.
During 22 years the great number of volumetric structural-geodynamic, geological, geophysical models of ore deposits (Fe-Ti, Cu, Au, Hg, Ni-Cu-Co) and oil-gas deposits (Namibia, Kalimantan, Urals, Ukraine, Timor, Uzbekistan) are created.
Integration of the mineralogical and geochemical data, geophysical maps and multispectral satellite images (Hyperion, ASTER, LANDSAT-7ETM and others) in multifactor volumetric structural-geodynamic models.
4D GeoSEIS software for computer processing of the ASTER and Landsat7ETM images have been used to create the volumetric structural-geodynamic models of the NW Namibia & SE Angola territory to discriminate the high potential concentration of mineral resources based on limited field data in order to aid exploration for new copper and titaniferous magnetite mineralization. The strategy adopted to facilitate this predictive modeling is to develop understanding and testing of a “4D GeoSEIS Model” through research. They allowed calculating the potential resources of commercially important concentration of copper and titaniferous magnetite ores. Several points of Fe-Ti-Cu mineralization predicted by the 4D GeoSEISM had been confirmed by field observations.
Take your geospatial analysis to the next 3D-4D level with 3D-4D GeoSEIS Tomography!
VALIDATION CERTIFICATE for “4D GeoSEIS Tomography” Method (English ver.) www.slideshare.net/JarosloveBondarenko/4-d-geoseissertifi....
*Using 4D GeoSEIS Tomography transformation of various bands of the multispectral imagery of WV-2, the discriminating iron oxides, clay and hydrothermal minerals can be accurately volumetric mapped...
* The results of structural-geodynamic modeling proved possibility of satellite maps creation (Landsat7ETM, ASTER, World View-2…) of low-amplitude tectonics with spatial resolution 1-20-30m/pix for horizontal lines, and 20 cm of fold’s amplitude. The spatial resolution of satellite models and maps on a concrete area exceeded the spatial resolution of mining works plan on the scale 1:5000.
* 3D GeoSEIS Tomography is invaluable for identifying geodynamic zones that may be potential areas for rock bursts, 3D fracture patterns, their density (number of cracks per unit volume) and outline zones of high permeability, shear zones and faults...
WHY WAIT FOR YOUR 90% DISCOUNT of 3D-4D GeoSEIS Tomography Modelling & Monitoring?
* The approbation of 3D-4D GeoSEIS Tomography method on any area, as my research at Iron Ore Open Pit №1 of PAO“CGOK” (Krivoy Rog, Ukraine) will be cost only $5000...
* The integrated 3D-4D GeoSEIS Tomography Method is a unique tool of 3D-4D transformations and integration of DEM, airborne thermal & multispectral satellite images, airborne/ground gamma-ray spectrometry, geophysical, geological and geochemical data into multicomponent volumetric 3D-4DGeoSEIST GIS for an exact and cost-effective 4D modelling!
* The prime commercial focus is a consulting service to assist predictive discovery of mineral & oil-gas deposits through application of advanced multicomponent volumetric 4D GeoSEIS Tomography modeling of spectral brightness and geophysical fields to targeting problems. This emerging 4D GeoSEIS technology is starting to be utilized by exploration companies and has the potential to improve the probability of exploration success by reducing the time and cost involved in discovery.
Volumetric 3D GeoSEIS model of predicted copper and titaniferous magnetite mineralization
based on "2D GeoSEIS neural network processing" of Landsat 7 ETM & ASTER images
(NW surrounding area of the Kunene Intrusive Complex, Namibia).
The volumetric 3D GeoSEIST model of distribution of Cu-Ti-Fe-Pb-Zn-Au mineralization has been predicted on the basis of the most informative characteristics of multispectral Landsat7ETM + image.
Using 4D GeoSEIS software for multicomponent volumetric (structural-geodynamic, geophysical, geochemical and mineralogical) modelling we offer:
* The multicomponent volumetric 4D GeoSEIST models with exact ranging and forecasting of mineral deposits, low-amplitude tectonics, geophysical anomalies and geologic properties of deep structures, using volumetric interpretation methods of multispectral satellite images for cost-effective geological prospecting.
During 25 years the great number of volumetric structural-geodynamic, geological, geophysical models of ore deposits (Fe-Ti, Cu, Au, Hg, Ni-Cu-Co) and oil-gas deposits (Namibia, Kalimantan, Urals, Ukraine, Timor, Uzbekistan) are created.
*The integration of the mineralogical and geochemical data, geophysical maps and multispectral satellite images (Hyperion, ASTER, LANDSAT-7ETM and others) in multifactor volumetric structural-geodynamic models.
4D GeoSEIS software for computer processing of the ASTER and Landsat7ETM images have been used to create the volumetric structural-geodynamic models of the NW Namibia & SE Angola territory to discriminate the high potential concentration of mineral resources based on limited field data in order to aid exploration for new copper and titaniferous magnetite mineralization. The strategy adopted to facilitate this predictive modeling is to develop understanding and testing of a “4D GeoSEIS Model” through research. They allowed calculating the potential resources of commercially important concentration of copper and titaniferous magnetite ores. Several points of Fe-Ti-Cu mineralization predicted by the 4D GeoSEIST Method had been confirmed by field observations.
Take your geospatial analysis to the next 3D-4D level with 3D-4D GeoSEIS Tomography!
VALIDATION CERTIFICATE for “4D GeoSEIS Tomography” Method (English ver.) www.slideshare.net/JarosloveBondarenko/4-d-geoseissertifi....
* The approbation of 3D-4D GeoSEIS Tomography method on any area, as my research at Iron Ore Open Pit №1 of PAO“CGOK” (Krivoy Rog, Ukraine) will be cost only $5000...
* The integrated 3D-4D GeoSEIS Tomography Method is a unique tool of 3D-4D transformations and integration of DEM, airborne thermal & multispectral satellite images, airborne/ground gamma-ray spectrometry, geophysical, geological and geochemical data into multicomponent volumetric 3D-4DGeoSEIST GIS for an exact and cost-effective 4D modelling!
* The prime commercial focus is a consulting service to assist predictive discovery of mineral & oil-gas deposits through application of advanced multicomponent volumetric 4D GeoSEIS Tomography modelling of spectral brightness and geophysical fields to targeting problems. This emerging 4D GeoSEIS technology is starting to be utilized by exploration companies and has the potential to improve the probability of exploration success by reducing the time and cost involved in discovery.
Volumetric 3D-4D GeoSEIS Models of the spectral brightness field of NW Namibia & SW Angola area (Depth: 17 km. Area: 100x220 km) .
The volumetric 3D GeoSEIST model of distribution of Cu-Ti-Fe-Pb-Zn-Au mineralization has been predicted on the basis of the most informative characteristics of multispectral Landsat7ETM + image.
Using 4D GeoSEIS software for multicomponent volumetric (structural-geodynamic, geophysical, geochemical and mineralogical) modelling we offer:
* The multicomponent volumetric 4D GeoSEIST models with exact ranging and forecasting of mineral deposits, low-amplitude tectonics, geophysical anomalies and geologic properties of deep structures, using volumetric interpretation methods of multispectral satellite images for cost-effective geological prospecting.
During 25 years the great number of volumetric structural-geodynamic, geological, geophysical models of ore deposits (Fe-Ti, Cu, Au, Hg, Ni-Cu-Co) and oil-gas deposits (Namibia, Kalimantan, Urals, Ukraine, Timor, Uzbekistan) are created.
*The integration of the mineralogical and geochemical data, geophysical maps and multispectral satellite images (Hyperion, ASTER, LANDSAT-7ETM and others) in multifactor volumetric structural-geodynamic models.
4D GeoSEIS software for computer processing of the ASTER and Landsat7ETM images have been used to create the volumetric structural-geodynamic models of the NW Namibia & SE Angola territory to discriminate the high potential concentration of mineral resources based on limited field data in order to aid exploration for new copper and titaniferous magnetite mineralization. The strategy adopted to facilitate this predictive modeling is to develop understanding and testing of a “4D GeoSEIS Model” through research. They allowed calculating the potential resources of commercially important concentration of copper and titaniferous magnetite ores. Several points of Fe-Ti-Cu mineralization predicted by the 4D GeoSEIST Method had been confirmed by field observations.
Take your geospatial analysis to the next 3D-4D level with 3D-4D GeoSEIS Tomography!
VALIDATION CERTIFICATE for “4D GeoSEIS Tomography” Method (English ver.) www.slideshare.net/JarosloveBondarenko/4-d-geoseissertifi....
* The approbation of 3D-4D GeoSEIS Tomography method on any area, as my research at Iron Ore Open Pit №1 of PAO“CGOK” (Krivoy Rog, Ukraine) will be cost only $5000...
* The integrated 3D-4D GeoSEIS Tomography Method is a unique tool of 3D-4D transformations and integration of DEM, airborne thermal & multispectral satellite images, airborne/ground gamma-ray spectrometry, geophysical, geological and geochemical data into multicomponent volumetric 3D-4DGeoSEIST GIS for an exact and cost-effective 4D modelling!
* The prime commercial focus is a consulting service to assist predictive discovery of mineral & oil-gas deposits through application of advanced multicomponent volumetric 4D GeoSEIS Tomography modelling of spectral brightness and geophysical fields to targeting problems. This emerging 4D GeoSEIS technology is starting to be utilized by exploration companies and has the potential to improve the probability of exploration success by reducing the time and cost involved in discovery.
Regional Volumetric 3D GeoSEIS model (Landsat 7 ETM) for predict new copper and titaniferous magnetite mineralization (NW surrounding area of the Kunene Intrusive Complex, Namibia).
Horizontal scale: 1:25000 (1px=30m); Vertical scale: 5 times increased Area: 30х45km; Depth: 500m.
The volumetric 3D GeoSEIST model of distribution of Cu-Ti-Fe-Pb-Zn-Au mineralization has been predicted on the basis of the most informative characteristics of multispectral Landsat7ETM + image.
Using 4D GeoSEIS software for multicomponent volumetric (structural-geodynamic, geophysical, geochemical and mineralogical) modelling we offer:
* The multicomponent volumetric 4D GeoSEIST models with exact ranging and forecasting of mineral deposits, low-amplitude tectonics, geophysical anomalies and geologic properties of deep structures, using volumetric interpretation methods of multispectral satellite images for cost-effective geological prospecting.
During 25 years the great number of volumetric structural-geodynamic, geological, geophysical models of ore deposits (Fe-Ti, Cu, Au, Hg, Ni-Cu-Co) and oil-gas deposits (Namibia, Kalimantan, Urals, Ukraine, Timor, Uzbekistan) are created.
*The integration of the mineralogical and geochemical data, geophysical maps and multispectral satellite images (Hyperion, ASTER, LANDSAT-7ETM and others) in multifactor volumetric structural-geodynamic models.
4D GeoSEIS software for computer processing of the ASTER and Landsat7ETM images have been used to create the volumetric structural-geodynamic models of the NW Namibia & SE Angola territory to discriminate the high potential concentration of mineral resources based on limited field data in order to aid exploration for new copper and titaniferous magnetite mineralization. The strategy adopted to facilitate this predictive modeling is to develop understanding and testing of a “4D GeoSEIS Model” through research. They allowed calculating the potential resources of commercially important concentration of copper and titaniferous magnetite ores. Several points of Fe-Ti-Cu mineralization predicted by the 4D GeoSEIST Method had been confirmed by field observations.
Take your geospatial analysis to the next 3D-4D level with 3D-4D GeoSEIS Tomography!
VALIDATION CERTIFICATE for “4D GeoSEIS Tomography” Method (English ver.) www.slideshare.net/JarosloveBondarenko/4-d-geoseissertifi....
* The approbation of 3D-4D GeoSEIS Tomography method on any area, as my research at Iron Ore Open Pit №1 of PAO“CGOK” (Krivoy Rog, Ukraine) will be cost only $5000...
* The integrated 3D-4D GeoSEIS Tomography Method is a unique tool of 3D-4D transformations and integration of DEM, airborne thermal & multispectral satellite images, airborne/ground gamma-ray spectrometry, geophysical, geological and geochemical data into multicomponent volumetric 3D-4DGeoSEIST GIS for an exact and cost-effective 4D modelling!
* The prime commercial focus is a consulting service to assist predictive discovery of mineral & oil-gas deposits through application of advanced multicomponent volumetric 4D GeoSEIS Tomography modelling of spectral brightness and geophysical fields to targeting problems. This emerging 4D GeoSEIS technology is starting to be utilized by exploration companies and has the potential to improve the probability of exploration success by reducing the time and cost involved in discovery.
Published by W. J. Johnston, New York.
Nikola Tesla (1856 – 1943) was a Serbian American inventor, electrical engineer, mechanical engineer, physicist, and futurist best known for his contributions to the design of the modern alternating current (AC) electricity supply system.
Tesla gained experience in telephony and electrical engineering before immigrating to the United States in 1884 to work for Thomas Edison in New York City. He soon struck out on his own with financial backers, setting up laboratories and companies to develop a range of electrical devices. His patented AC induction motor and transformer were licensed by George Westinghouse, who also hired Tesla for a short time as a consultant. His work in the formative years of electric power development was involved in a corporate alternating current/direct current "War of Currents" as well as various patent battles.
Tesla went on to pursue his ideas of wireless lighting and electricity distribution in his high-voltage, high-frequency power experiments in New York and Colorado Springs, and made early (1893) pronouncements on the possibility of wireless communication with his devices. He tried to put these ideas to practical use in his ill-fated attempt at intercontinental wireless transmission, which was his unfinished Wardenclyffe Tower project. In his lab he also conducted a range of experiments with mechanical oscillators/generators, electrical discharge tubes, and early X-ray imaging. He also built a wireless controlled boat, one of the first ever exhibited.
Tesla was renowned for his achievements and showmanship, eventually earning him a reputation in popular culture as an archetypal "mad scientist". His patents earned him a considerable amount of money, much of which was used to finance his own projects with varying degrees of success. He lived most of his life in a series of New York hotels, through his retirement. He died on 7 January 1943. His work fell into relative obscurity after his death, but in 1960 the General Conference on Weights and Measures named the SI unit of magnetic flux density the tesla in his honor. Tesla has experienced a resurgence in interest in popular culture since the 1990s. [Source: Wikipedia]
Ob individuelle Förderung, spielerisches Entdecken im "Haus der kleinen Forscher", gezielte Stärkung interkultureller Kompetenz oder intensive Sprachförderung: Hier ist klein aber so was von oho! Nur einer von vielen Gründen, jetzt umzuziehen: Mehr erfahren Sie unter: www.BW-jetzt.de
Nikola Tesla (1856 – 1943) was a Serbian American inventor, electrical engineer, mechanical engineer, physicist, and futurist best known for his contributions to the design of the modern alternating current (AC) electricity supply system.
Tesla gained experience in telephony and electrical engineering before immigrating to the United States in 1884 to work for Thomas Edison in New York City. He soon struck out on his own with financial backers, setting up laboratories and companies to develop a range of electrical devices. His patented AC induction motor and transformer were licensed by George Westinghouse, who also hired Tesla for a short time as a consultant. His work in the formative years of electric power development was involved in a corporate alternating current/direct current "War of Currents" as well as various patent battles.
Tesla went on to pursue his ideas of wireless lighting and electricity distribution in his high-voltage, high-frequency power experiments in New York and Colorado Springs, and made early (1893) pronouncements on the possibility of wireless communication with his devices. He tried to put these ideas to practical use in his ill-fated attempt at intercontinental wireless transmission, which was his unfinished Wardenclyffe Tower project. In his lab he also conducted a range of experiments with mechanical oscillators/generators, electrical discharge tubes, and early X-ray imaging. He also built a wireless controlled boat, one of the first ever exhibited.
Tesla was renowned for his achievements and showmanship, eventually earning him a reputation in popular culture as an archetypal "mad scientist". His patents earned him a considerable amount of money, much of which was used to finance his own projects with varying degrees of success. He lived most of his life in a series of New York hotels, through his retirement. He died on 7 January 1943. His work fell into relative obscurity after his death, but in 1960 the General Conference on Weights and Measures named the SI unit of magnetic flux density the tesla in his honor. Tesla has experienced a resurgence in interest in popular culture since the 1990s. [Source: Wikipedia]
Never forget: a real go-getter is controversial and refreshing but nevertheless easy to understand. Furthermore, he talks like Dr. Phil: in a clear, slow and warm voice.
PS: BizzBuzz is the English translation of my Ware Woorden-project: see www.warewoorden.nl.
It's Management by Cartoons!
The super drawings are from Adri van Kooten.
NB: Want this cartoon on a t-shirt or mug? Please visit: 491256.spreadshirt.net/nl/NL/Shop
If you want to publish these cartoons, contact me at: info@woord-kracht.nl!
Inevitable Question 19F:
Why did you leave your previous employer?
I felt like a luscious & colorful island in an ocean of greyblue undersized careerdicks!!!
Inevitable Question 4b:
What's your ambition?
My ambition?
To torpedo myself A.S.A.P. into your boardroom!!!
Doorzaagvraag 10e:
Waarom ben jij de ultieme kandidaat voor deze baan?
Ik ben SUPERspecialist in het wegmasseren van ongewenste waarheden!