Ihre Suche nach:
40 Ergebnis(se) in 8 ms
-
DUKAS_189718453_NUR
Tech Companies And Stock Photo Illustrations
A laptop keyboard, a reflected illustrative stock graph displayed on a screen and Nvidia logo dislayed on a phone screen are seen in this illustration photo taken in Krakow, Poland on October 7, 2025. (Photo by Jakub Porzycki/NurPhoto) -
DUKAS_189718450_NUR
Tech Companies And Stock Photo Illustrations
A laptop keyboard, a reflected illustrative stock graph displayed on a screen and Meta logo dislayed on a phone screen are seen in this illustration photo taken in Krakow, Poland on October 7, 2025. (Photo by Jakub Porzycki/NurPhoto) -
DUKAS_188747753_NUR
Financial Data Analysis
In this photo illustration, a man analyzes financial data on his phone and laptop in Athens, Greece, on September 12, 2025. (Photo by Nikolas Kokovlis/NurPhoto) -
DUKAS_188747689_NUR
Financial Data Analysis
In this photo illustration, a man analyzes financial data on his phone and laptop in Athens, Greece, on September 12, 2025. (Photo by Nikolas Kokovlis/NurPhoto) -
DUKAS_188747686_NUR
Financial Data Analysis
In this photo illustration, a man analyzes financial data on his phone and laptop in Athens, Greece, on September 12, 2025. (Photo by Nikolas Kokovlis/NurPhoto) -
DUKAS_188747683_NUR
Financial Data Analysis
In this photo illustration, a man analyzes financial data on his phone and laptop in Athens, Greece, on September 12, 2025. (Photo by Nikolas Kokovlis/NurPhoto) -
DUKAS_188747680_NUR
Financial Data Analysis
In this photo illustration, a man analyzes financial data on his phone and laptop in Athens, Greece, on September 12, 2025. (Photo by Nikolas Kokovlis/NurPhoto) -
DUKAS_188747632_NUR
Financial Data Analysis
In this photo illustration, a man analyzes financial data on his phone and laptop in Athens, Greece, on September 12, 2025. (Photo by Nikolas Kokovlis/NurPhoto) -
DUKAS_188747629_NUR
Financial Data Analysis
In this photo illustration, a man analyzes financial data on his phone and laptop in Athens, Greece, on September 12, 2025. (Photo by Nikolas Kokovlis/NurPhoto) -
DUKAS_188747615_NUR
Financial Data Analysis
In this photo illustration, a man analyzes financial data on his phone and laptop in Athens, Greece, on September 12, 2025. (Photo by Nikolas Kokovlis/NurPhoto) -
DUKAS_187890070_NUR
Nasdaq 100 Companies Photo Illustrations
An illustrative stock graph displayed on a screen and Microsoft logo displayed on a phone screen are seen in this illustration photo taken in Krakow, Poland on August 18, 2025. (Photo by Jakub Porzycki/NurPhoto) -
DUKAS_187890068_NUR
Nasdaq 100 Companies Photo Illustrations
An illustrative stock graph displayed on a screen and Zscaler logo displayed on a phone screen are seen in this illustration photo taken in Krakow, Poland on August 18, 2025. (Photo by Jakub Porzycki/NurPhoto) -
DUKAS_187890065_NUR
Nasdaq 100 Companies Photo Illustrations
An illustrative stock graph displayed on a screen and Cognizant logo displayed on a phone screen are seen in this illustration photo taken in Krakow, Poland on August 18, 2025. (Photo by Jakub Porzycki/NurPhoto) -
DUKAS_187890053_NUR
Nasdaq 100 Companies Photo Illustrations
An illustrative stock graph displayed on a screen and Roper Technologies logo displayed on a phone screen are seen in this illustration photo taken in Krakow, Poland on August 18, 2025. (Photo by Jakub Porzycki/NurPhoto) -
DUKAS_187890049_NUR
Nasdaq 100 Companies Photo Illustrations
An illustrative stock graph displayed on a screen and CoStar logo displayed on a phone screen are seen in this illustration photo taken in Krakow, Poland on August 18, 2025. (Photo by Jakub Porzycki/NurPhoto) -
DUKAS_187890047_NUR
Nasdaq 100 Companies Photo Illustrations
An illustrative stock graph displayed on a screen and Onsemi logo displayed on a phone screen are seen in this illustration photo taken in Krakow, Poland on August 18, 2025. (Photo by Jakub Porzycki/NurPhoto) -
DUKAS_187890044_NUR
Nasdaq 100 Companies Photo Illustrations
An illustrative stock graph displayed on a screen and Fastenal logo displayed on a phone screen are seen in this illustration photo taken in Krakow, Poland on August 18, 2025. (Photo by Jakub Porzycki/NurPhoto) -
DUKAS_187890041_NUR
Nasdaq 100 Companies Photo Illustrations
An illustrative stock graph displayed on a screen and Charter Communications logo displayed on a phone screen are seen in this illustration photo taken in Krakow, Poland on August 18, 2025. (Photo by Jakub Porzycki/NurPhoto) -
DUKAS_187890034_NUR
Nasdaq 100 Companies Photo Illustrations
An illustrative stock graph displayed on a screen and Analog Devices logo displayed on a phone screen are seen in this illustration photo taken in Krakow, Poland on August 18, 2025. (Photo by Jakub Porzycki/NurPhoto) -
DUKAS_187890027_NUR
Nasdaq 100 Companies Photo Illustrations
An illustrative stock graph displayed on a screen and Applied Materials logo displayed on a phone screen are seen in this illustration photo taken in Krakow, Poland on August 18, 2025. (Photo by Jakub Porzycki/NurPhoto) -
DUKAS_187170147_NUR
Indonesia Facing Greater Challenges In Creating Job Opportunities
People walk in the business district during rush hour in Jakarta, Indonesia, on July 22, 2025. An economist and the Director of the Center for Economic and Law Studies (Celios) states that Indonesia's economic growth of only 5% proves to be very limited in creating job opportunities. (Photo by Afriadi Hikmal/NurPhoto) -
DUKAS_187170142_NUR
Indonesia Facing Greater Challenges In Creating Job Opportunities
People walk in the business district during rush hour in Jakarta, Indonesia, on July 22, 2025. An economist and the Director of the Center for Economic and Law Studies (Celios) states that Indonesia's economic growth of only 5% proves to be very limited in creating job opportunities. (Photo by Afriadi Hikmal/NurPhoto) -
DUKAS_187170137_NUR
Indonesia Facing Greater Challenges In Creating Job Opportunities
People walk in the business district during rush hour in Jakarta, Indonesia, on July 22, 2025. An economist and the Director of the Center for Economic and Law Studies (Celios) states that Indonesia's economic growth of only 5% proves to be very limited in creating job opportunities. (Photo by Afriadi Hikmal/NurPhoto) -
DUKAS_187141494_NUR
Big Tech And Donald Trump Photo Illustrations
An illustrative stock graph displayed on a laptop screen and Meta logo displayed on a phone screen are seen in this illustration photo taken in Poland on July 21, 2025. (Photo by Jakub Porzycki/NurPhoto) -
DUKAS_180849571_BES
Un chariot de golf intelligent et autonome a été développé pour suivre un joueur et l'aider comme un caddy
Pictures must credit: iXi.Golf A self-driving smart golf trolley has been developed that follows a player around and gives help like a caddy. The iXi is able to negotiate any course entirely on its own so no pulling or pushing is required. It is also equipped with a touch screen and connected app that analyses swing and shots. The trolley is able to autonomously navigate to the green’s exit in the direction of the next tee, saving time and effort. The hands-free operation comes with body recognition so it knows which player to follow and understands voice commands. The touch screen has access to GPS maps, shot distances, club recommendations, and more for what the Belgium-based makers call “ smarter play.” It also offers instant feedback, ball trajectory visuals, and frame-by-frame reviews to improve a game. The company says the iXi evolves over time into a more advanced version of itself over time It automatically moves to the end of the green in the direction of the next tee with the player simply showing it their putter. The cart is pre-loaded with maps of more than 40,000 golf courses for precise navigation. It has hole distances, par, and green details on the integrated display i and iXi calculates distances. Picture supplied by JLPPA
JLPPA / Bestimage -
DUKAS_180849566_BES
Un chariot de golf intelligent et autonome a été développé pour suivre un joueur et l'aider comme un caddy
Pictures must credit: iXi.Golf A self-driving smart golf trolley has been developed that follows a player around and gives help like a caddy. The iXi is able to negotiate any course entirely on its own so no pulling or pushing is required. It is also equipped with a touch screen and connected app that analyses swing and shots. The trolley is able to autonomously navigate to the green’s exit in the direction of the next tee, saving time and effort. The hands-free operation comes with body recognition so it knows which player to follow and understands voice commands. The touch screen has access to GPS maps, shot distances, club recommendations, and more for what the Belgium-based makers call “ smarter play.” It also offers instant feedback, ball trajectory visuals, and frame-by-frame reviews to improve a game. The company says the iXi evolves over time into a more advanced version of itself over time It automatically moves to the end of the green in the direction of the next tee with the player simply showing it their putter. The cart is pre-loaded with maps of more than 40,000 golf courses for precise navigation. It has hole distances, par, and green details on the integrated display i and iXi calculates distances. Picture supplied by JLPPA
JLPPA / Bestimage -
DUKAS_180849561_BES
Un chariot de golf intelligent et autonome a été développé pour suivre un joueur et l'aider comme un caddy
Pictures must credit: iXi.Golf A self-driving smart golf trolley has been developed that follows a player around and gives help like a caddy. The iXi is able to negotiate any course entirely on its own so no pulling or pushing is required. It is also equipped with a touch screen and connected app that analyses swing and shots. The trolley is able to autonomously navigate to the green’s exit in the direction of the next tee, saving time and effort. The hands-free operation comes with body recognition so it knows which player to follow and understands voice commands. The touch screen has access to GPS maps, shot distances, club recommendations, and more for what the Belgium-based makers call “ smarter play.” It also offers instant feedback, ball trajectory visuals, and frame-by-frame reviews to improve a game. The company says the iXi evolves over time into a more advanced version of itself over time It automatically moves to the end of the green in the direction of the next tee with the player simply showing it their putter. The cart is pre-loaded with maps of more than 40,000 golf courses for precise navigation. It has hole distances, par, and green details on the integrated display i and iXi calculates distances. Picture supplied by JLPPA
JLPPA / Bestimage -
DUKAS_180849556_BES
Un chariot de golf intelligent et autonome a été développé pour suivre un joueur et l'aider comme un caddy
Pictures must credit: iXi.Golf A self-driving smart golf trolley has been developed that follows a player around and gives help like a caddy. The iXi is able to negotiate any course entirely on its own so no pulling or pushing is required. It is also equipped with a touch screen and connected app that analyses swing and shots. The trolley is able to autonomously navigate to the green’s exit in the direction of the next tee, saving time and effort. The hands-free operation comes with body recognition so it knows which player to follow and understands voice commands. The touch screen has access to GPS maps, shot distances, club recommendations, and more for what the Belgium-based makers call “ smarter play.” It also offers instant feedback, ball trajectory visuals, and frame-by-frame reviews to improve a game. The company says the iXi evolves over time into a more advanced version of itself over time It automatically moves to the end of the green in the direction of the next tee with the player simply showing it their putter. The cart is pre-loaded with maps of more than 40,000 golf courses for precise navigation. It has hole distances, par, and green details on the integrated display i and iXi calculates distances. Picture supplied by JLPPA
JLPPA / Bestimage -
DUKAS_180849551_BES
Un chariot de golf intelligent et autonome a été développé pour suivre un joueur et l'aider comme un caddy
Pictures must credit: iXi.Golf A self-driving smart golf trolley has been developed that follows a player around and gives help like a caddy. The iXi is able to negotiate any course entirely on its own so no pulling or pushing is required. It is also equipped with a touch screen and connected app that analyses swing and shots. The trolley is able to autonomously navigate to the green’s exit in the direction of the next tee, saving time and effort. The hands-free operation comes with body recognition so it knows which player to follow and understands voice commands. The touch screen has access to GPS maps, shot distances, club recommendations, and more for what the Belgium-based makers call “ smarter play.” It also offers instant feedback, ball trajectory visuals, and frame-by-frame reviews to improve a game. The company says the iXi evolves over time into a more advanced version of itself over time It automatically moves to the end of the green in the direction of the next tee with the player simply showing it their putter. The cart is pre-loaded with maps of more than 40,000 golf courses for precise navigation. It has hole distances, par, and green details on the integrated display i and iXi calculates distances. Picture supplied by JLPPA
JLPPA / Bestimage -
DUKAS_180849546_BES
Un chariot de golf intelligent et autonome a été développé pour suivre un joueur et l'aider comme un caddy
Pictures must credit: iXi.Golf A self-driving smart golf trolley has been developed that follows a player around and gives help like a caddy. The iXi is able to negotiate any course entirely on its own so no pulling or pushing is required. It is also equipped with a touch screen and connected app that analyses swing and shots. The trolley is able to autonomously navigate to the green’s exit in the direction of the next tee, saving time and effort. The hands-free operation comes with body recognition so it knows which player to follow and understands voice commands. The touch screen has access to GPS maps, shot distances, club recommendations, and more for what the Belgium-based makers call “ smarter play.” It also offers instant feedback, ball trajectory visuals, and frame-by-frame reviews to improve a game. The company says the iXi evolves over time into a more advanced version of itself over time It automatically moves to the end of the green in the direction of the next tee with the player simply showing it their putter. The cart is pre-loaded with maps of more than 40,000 golf courses for precise navigation. It has hole distances, par, and green details on the integrated display i and iXi calculates distances. Picture supplied by JLPPA
JLPPA / Bestimage -
DUKAS_180849541_BES
Un chariot de golf intelligent et autonome a été développé pour suivre un joueur et l'aider comme un caddy
Pictures must credit: iXi.Golf A self-driving smart golf trolley has been developed that follows a player around and gives help like a caddy. The iXi is able to negotiate any course entirely on its own so no pulling or pushing is required. It is also equipped with a touch screen and connected app that analyses swing and shots. The trolley is able to autonomously navigate to the green’s exit in the direction of the next tee, saving time and effort. The hands-free operation comes with body recognition so it knows which player to follow and understands voice commands. The touch screen has access to GPS maps, shot distances, club recommendations, and more for what the Belgium-based makers call “ smarter play.” It also offers instant feedback, ball trajectory visuals, and frame-by-frame reviews to improve a game. The company says the iXi evolves over time into a more advanced version of itself over time It automatically moves to the end of the green in the direction of the next tee with the player simply showing it their putter. The cart is pre-loaded with maps of more than 40,000 golf courses for precise navigation. It has hole distances, par, and green details on the integrated display i and iXi calculates distances. Picture supplied by JLPPA
JLPPA / Bestimage -
DUKAS_138327716_EYE
It’s literally slower than watching Australia drift north’: the laboratory experiment that will outlive us all
For more than 90 years, a funnel of pitch in Brisbane has been slowly dripping into a beaker. Nine drops have fallen, now the long wait for the tenth is on.
The pitch drop experiment was first set up by Mainstone's predecessor Thomas Parnell in 1927. Parnell heated and liquefied some pitch, poured it into a sealed funnel, and set it over the beaker inside a large bell jar. In 1930, he cut the stem of the funnel – and waited.
Nearly a century later, the original experiment - which has become the longest running laboratory experiment in the world – stands in the foyer of the physics building in the Great Court. The jar is set inside a protective plastic cube, with an analogue Casio desk clock observing each moment as students and staff wander past. The funnel is held aloft by a brass tripod; at the bottom, a shiny black balloon of pitch hovers above the empty beaker.
On a Friday afternoon in April 1979, John Mainstone, a physics professor at the University of Queensland, rang his wife at home. He wouldn’t be back that evening, he told her. For the previous 18 years, Mainstone had looked after the pitch drop experiment, a long-form demonstration of the extreme viscosity of pitch. For the first time since August 1970, the pitch was about to drip from its funnel, and Mainstone didn’t want to miss it.
Recognised by the Guiness Book of Records as the longest running scientific experiment in the world. The first Professor of Physics at the University of Queensland, Professor Thomas Parnell, began the experiment in 1927. In the more than 80 years that the pitch has been dripping no-one has ever seen the drop fall. There is now a live video feed accessible via the website. The third custodian of the Pitch Drop Experiment is Prof. Andrew White. Brisbane. Australia.
© David Kelly / Guardian / eyevine
Contact eyevine for more information about using this image:
T: +44 (0) 20 8709 8709
E: info@eyevine.com
http://www.eyevine.com
(FOTO: DUKAS/EYEVINE)
© Guardian / eyevine. All Rights Reserved. -
DUKAS_138327715_EYE
It’s literally slower than watching Australia drift north’: the laboratory experiment that will outlive us all
For more than 90 years, a funnel of pitch in Brisbane has been slowly dripping into a beaker. Nine drops have fallen, now the long wait for the tenth is on.
The pitch drop experiment was first set up by Mainstone's predecessor Thomas Parnell in 1927. Parnell heated and liquefied some pitch, poured it into a sealed funnel, and set it over the beaker inside a large bell jar. In 1930, he cut the stem of the funnel – and waited.
Nearly a century later, the original experiment - which has become the longest running laboratory experiment in the world – stands in the foyer of the physics building in the Great Court. The jar is set inside a protective plastic cube, with an analogue Casio desk clock observing each moment as students and staff wander past. The funnel is held aloft by a brass tripod; at the bottom, a shiny black balloon of pitch hovers above the empty beaker.
On a Friday afternoon in April 1979, John Mainstone, a physics professor at the University of Queensland, rang his wife at home. He wouldn’t be back that evening, he told her. For the previous 18 years, Mainstone had looked after the pitch drop experiment, a long-form demonstration of the extreme viscosity of pitch. For the first time since August 1970, the pitch was about to drip from its funnel, and Mainstone didn’t want to miss it.
Recognised by the Guiness Book of Records as the longest running scientific experiment in the world. The first Professor of Physics at the University of Queensland, Professor Thomas Parnell, began the experiment in 1927. In the more than 80 years that the pitch has been dripping no-one has ever seen the drop fall. There is now a live video feed accessible via the website. The third custodian of the Pitch Drop Experiment is Prof. Andrew White. Brisbane. Australia.
© David Kelly / Guardian / eyevine
Contact eyevine for more information about using this image:
T: +44 (0) 20 8709 8709
E: info@eyevine.com
http://www.eyevine.com
(FOTO: DUKAS/EYEVINE)
© Guardian / eyevine. All Rights Reserved. -
DUKAS_138327685_EYE
It’s literally slower than watching Australia drift north’: the laboratory experiment that will outlive us all
For more than 90 years, a funnel of pitch in Brisbane has been slowly dripping into a beaker. Nine drops have fallen, now the long wait for the tenth is on.
The pitch drop experiment was first set up by Mainstone's predecessor Thomas Parnell in 1927. Parnell heated and liquefied some pitch, poured it into a sealed funnel, and set it over the beaker inside a large bell jar. In 1930, he cut the stem of the funnel – and waited.
Nearly a century later, the original experiment - which has become the longest running laboratory experiment in the world – stands in the foyer of the physics building in the Great Court. The jar is set inside a protective plastic cube, with an analogue Casio desk clock observing each moment as students and staff wander past. The funnel is held aloft by a brass tripod; at the bottom, a shiny black balloon of pitch hovers above the empty beaker.
On a Friday afternoon in April 1979, John Mainstone, a physics professor at the University of Queensland, rang his wife at home. He wouldn’t be back that evening, he told her. For the previous 18 years, Mainstone had looked after the pitch drop experiment, a long-form demonstration of the extreme viscosity of pitch. For the first time since August 1970, the pitch was about to drip from its funnel, and Mainstone didn’t want to miss it.
Recognised by the Guiness Book of Records as the longest running scientific experiment in the world. The first Professor of Physics at the University of Queensland, Professor Thomas Parnell, began the experiment in 1927. In the more than 80 years that the pitch has been dripping no-one has ever seen the drop fall. There is now a live video feed accessible via the website. The third custodian of the Pitch Drop Experiment is Prof. Andrew White. Brisbane. Australia.
© David Kelly / Guardian / eyevine
Contact eyevine for more information about using this image:
T: +44 (0) 20 8709 8709
E: info@eyevine.com
http://www.eyevine.com
(FOTO: DUKAS/EYEVINE)
© Guardian / eyevine. All Rights Reserved. -
DUKAS_138327684_EYE
It’s literally slower than watching Australia drift north’: the laboratory experiment that will outlive us all
For more than 90 years, a funnel of pitch in Brisbane has been slowly dripping into a beaker. Nine drops have fallen, now the long wait for the tenth is on.
The pitch drop experiment was first set up by Mainstone's predecessor Thomas Parnell in 1927. Parnell heated and liquefied some pitch, poured it into a sealed funnel, and set it over the beaker inside a large bell jar. In 1930, he cut the stem of the funnel – and waited.
Nearly a century later, the original experiment - which has become the longest running laboratory experiment in the world – stands in the foyer of the physics building in the Great Court. The jar is set inside a protective plastic cube, with an analogue Casio desk clock observing each moment as students and staff wander past. The funnel is held aloft by a brass tripod; at the bottom, a shiny black balloon of pitch hovers above the empty beaker.
On a Friday afternoon in April 1979, John Mainstone, a physics professor at the University of Queensland, rang his wife at home. He wouldn’t be back that evening, he told her. For the previous 18 years, Mainstone had looked after the pitch drop experiment, a long-form demonstration of the extreme viscosity of pitch. For the first time since August 1970, the pitch was about to drip from its funnel, and Mainstone didn’t want to miss it.
Recognised by the Guiness Book of Records as the longest running scientific experiment in the world. The first Professor of Physics at the University of Queensland, Professor Thomas Parnell, began the experiment in 1927. In the more than 80 years that the pitch has been dripping no-one has ever seen the drop fall. There is now a live video feed accessible via the website. The third custodian of the Pitch Drop Experiment is Prof. Andrew White. Brisbane. Australia.
© David Kelly / Guardian / eyevine
Contact eyevine for more information about using this image:
T: +44 (0) 20 8709 8709
E: info@eyevine.com
http://www.eyevine.com
(FOTO: DUKAS/EYEVINE)
© Guardian / eyevine. All Rights Reserved. -
DUKAS_25121695_REX
'Art of Failure' electron microscope competition - 06 Aug 2012
Mandatory Credit: Photo by Foo Fang Jie/ Advanced Micro / Rex Features (1810295h)
'Naughty Beach Fun' Wins Electron Microscope Competition
Naked bodies appear to frolic on a beach, a frog happily perches on a hill and a kangaroo bounds across the landscape.
These are some of the familiar - and bizarre - sights scientists have seen under the microscope.
These images were entries in the recent International Symposium on the Physical and Failure Analysis of Integrated Circuits in Singapore.
The annual photography competition sees eggheads showing off the fun side of their research in microelectronics technology.
The analysts work on 'failure analysis', the process of investigating why a particular electronic component fails to work.
The winning image, entitled People on the Beach by Lim Saw Sing at Infineon Technologies, depicts a polyimide surface after exposure to reactive ion etching and sputter coating. In reality, it looks uncannily like a saucy beach scene with dozens of cavorting couples.
Second prize was Wings by Foo Fang Jie at Advanced Micro Devices which sees fracture analysis of a silicon sample resembling a pair of wings. Third prize The Hope Terrace by Tan Lee Koon at Systems-on-Silicon Manufacturing Co. is a picture of wafer-edge chipping giving the effect of step-like spectacular landforms.
Other highlights included a 'Royal Elephant' on a silicon sample, a particle embedded in a metal layer resembling a tortoise in water and a 'Fist of Victory' highlighted by an image showing the nano fabrication capability of a FIB (Focused Ion Beam).
For more information visit http://www.rexfeatures.com/stacklink/IAHGIEGYE (FOTO:DUKAS/REX)
DUKAS/REX -
DUKAS_19406312_REX
Hospital
Mandatory Credit: Photo by Daniel Allan / Mood Board / Rex Features ( 1297326a )
MODEL RELEASED Doctors examining CT scan pictures on computer monitors
Hospital
(FOTO:DUKAS/REX)
DUKAS/REX -
DUKAS_17578914_REX
A YOUNG MALE AFRICAN-AMERICAN STUDENT PERFORMS AN EXPERIMENT IN CHEMISTRY CLASS.
Mandatory Credit: Photo by NOVASTOCK / Rex Features ( 387000a )
A YOUNG MALE AFRICAN-AMERICAN STUDENT PERFORMS AN EXPERIMENT IN CHEMISTRY CLASS. MODEL RELEASED
A YOUNG MALE AFRICAN-AMERICAN STUDENT PERFORMS AN EXPERIMENT IN CHEMISTRY CLASS.
(FOTO:DUKAS/REX)
DUKAS/REX -
DUKAS_15869253_UNA
Mechanik im Gehirn / mechanics in the brain
bb_006_70202108 (39511/BB_006_70202108), Mechanik im Gehirn, (© INSADCO / Bilderbox)
DUKAS/UNITED ARCHIVES -
DUKAS_12441488_REX
Slavneft Oil Company, Russia - Jun 2004
Mandatory Credit: Photo by Dmitry Beliakov / Rex Features ( 1064748c )
Bagras oil field workers of the Slavneft Company, collecting oil samples for Chemical Analysis, Megion, Russia
Slavneft Oil Company, Russia - Jun 2004
(FOTO:DUKAS/REX)
DUKAS/REX