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Air Pressure Collection

Air pressure plays a crucial role in various aspects of transportation and engineering

Background imageAir Pressure Collection: Pump Governor - Westinghouse Air Brake

Pump Governor - Westinghouse Air Brake
Today, the air brake is the standard, fail-safe train brake used by railways worldwide. Early train brakes were hand operated and largely ineffective

Background imageAir Pressure Collection: The Atmospheric Railway at Dawlish, 1847, (1945). Creator: Unknown

The Atmospheric Railway at Dawlish, 1847, (1945). Creator: Unknown
The Atmospheric Railway at Dawlish, 1847, (1945). Railway line running along the sea front in the town of Dawlish on the south coast of Devon

Background imageAir Pressure Collection: Leading carriages, showing the tube, piston, heater, closing wheels &c. 1845

Leading carriages, showing the tube, piston, heater, closing wheels &c. 1845. Diagram showing an atmospheric railway, a system using air pressure for locomotion, invented by Clegg and Samuda

Background imageAir Pressure Collection: Viaduct on the Croydon Atmospheric Railway... 1845. Creator: Unknown

Viaduct on the Croydon Atmospheric Railway... 1845. Creator: Unknown
Viaduct on the Croydon Atmospheric Railway, crossing the Dover and Brighton lines, between Norwood and Croydon, 1845. Trains travelling on tracks using air pressure for locomotion, south London

Background imageAir Pressure Collection: Portion of the tube on the line, 1845. Creator: Unknown

Portion of the tube on the line, 1845. Creator: Unknown
Portion of the tube on the line, 1845. Diagram showing part of the track of an atmospheric railway, a system using air pressure for locomotion, invented by Clegg and Samuda

Background imageAir Pressure Collection: Dawlish, Devon, c1860

Dawlish, Devon, c1860. This viewshows the track of Isambard Kingdom Brunels (1806-1859) South Devon Railway

Background imageAir Pressure Collection: Equilibrium and movement of the air, c1851

Equilibrium and movement of the air, c1851

Background imageAir Pressure Collection: Kingstown and Dalkey Atmospheric Railway, near Dublin, 1845

Kingstown and Dalkey Atmospheric Railway, near Dublin, 1845

Background imageAir Pressure Collection: Clegg and Samudas atmospheric railway, 1845

Clegg and Samudas atmospheric railway, 1845

Background imageAir Pressure Collection: Von Guerickes demonstration of the power of air pressure, 1672

Von Guerickes demonstration of the power of air pressure, 1672

Background imageAir Pressure Collection: Von Guerickes demonstration of the strength of a vacuum, 1654 (1672)

Von Guerickes demonstration of the strength of a vacuum, 1654 (1672). The man on the right is using an air pump to create the vacuum

Background imageAir Pressure Collection: Otto von Guericke, German inventor, engineer and physicist, 1672

Otto von Guericke, German inventor, engineer and physicist, 1672

Background imageAir Pressure Collection: Title page of Experimenta Nova

Title page of Experimenta Nova, ut vocant, Magdeburgica, de vacuo Spatio, (Amsterdam, 1672)

Background imageAir Pressure Collection: Von Guerickes demonstration of the strength of air pressure, 1672

Von Guerickes demonstration of the strength of air pressure, 1672

Background imageAir Pressure Collection: Robert Boyles second air pump, c1660 (1725)

Robert Boyles second air pump, c1660 (1725). The pump is being used to evacuate a bell jar to examine the effect on an animal inside it

Background imageAir Pressure Collection: Air pump built for Robert Boyle by Robert Hooke, 1660

Air pump built for Robert Boyle by Robert Hooke, 1660. Robert Boyle (1627-1691) was a physicist and chemist who carried out many experiments on air, vacuum, combustion, and respiration

Background imageAir Pressure Collection: Robert Boyles experiments with air pumps, 1725

Robert Boyles experiments with air pumps, 1725. Using this apparatus, similar to Guerickes water barometer, Boyle (1627-1691) found that water could only be raised 33ft 6ins

Background imageAir Pressure Collection: KENTUCKY: GAS STATION, 1942. Virginia Lively

KENTUCKY: GAS STATION, 1942. Virginia Lively, a wartime gas station attendant in Louisville, Kentucky. Photograph, 1942

Background imageAir Pressure Collection: Advertisment for Barometers made by John Patrick, c. 1705-1715 (engraving)

Advertisment for Barometers made by John Patrick, c. 1705-1715 (engraving)
XJF439969 Advertisment for Barometers made by John Patrick, c.1705-1715 (engraving) by English School

Background imageAir Pressure Collection: OTTO von GUERICKE, 1672. Title-page of the first edition of Otto von Guerickes Experimenta Nova

OTTO von GUERICKE, 1672. Title-page of the first edition of Otto von Guerickes Experimenta Nova
OTTO von GUERICKE, 1672

Background imageAir Pressure Collection: English chemist and physicist. Line engraving

English chemist and physicist. Line engraving
ROBERT BOYLE (1627-1691). English chemist and physicist

Background imageAir Pressure Collection: Weather station equipment including wind instruments and, at centre, a barograph

Weather station equipment including wind instruments and, at centre, a barograph

Background imageAir Pressure Collection: Meteorological and Pneumatic Instruments C017 / 3455

Meteorological and Pneumatic Instruments C017 / 3455
Plate from 18th century encyclopedia showing illustrations of various meteorological and pneumatic instruments

Background imageAir Pressure Collection: Pneumatic Devices C017 / 3494

Pneumatic Devices C017 / 3494
Plate from 18th century encyclopedia showing illustrations of various pneumatic devices

Background imageAir Pressure Collection: Eustachian tube anatomy, artwork

Eustachian tube anatomy, artwork
Eustachian tube anatomy. Artwork of the anatomy of the human Eustachian tube in its normal closed state (main artwork) and in an open state (inset, upper right)

Background imageAir Pressure Collection: Hovercraft, artwork C013 / 5947

Hovercraft, artwork C013 / 5947
Hovercraft. Cutaway computer artwork showing how a hovercraft floats on a cushion of air above the ground

Background imageAir Pressure Collection: Large water barometer, 1890 C013 / 9061

Large water barometer, 1890 C013 / 9061
Large water barometer, 19th-century artwork. Artwork from the 5th volume (first period of 1890) of the French popular science weekly La Science Illustree

Background imageAir Pressure Collection: OTTO von GUERICKE, 1672. One of Otto von Guerickes demonstrations of air pressure

OTTO von GUERICKE, 1672. One of Otto von Guerickes demonstrations of air pressure. Copper engraving from Guerickes Experiment Nova, Amsterdam, 1672

Background imageAir Pressure Collection: VON GUERICKE: AIR PRESSURE

VON GUERICKE: AIR PRESSURE. Otto von Guerickes most celebrated experiment on air pressure utilizing the Magdeburg hemispheres. Copper engraving from his Experimenta Nova, Amsterdam, 1672

Background imageAir Pressure Collection: Testing a barometer

Testing a barometer. Laboratory technician analysing a barometer using testing equipment. The barometer (right) is used to measure atmospheric pressure and forecast the weather

Background imageAir Pressure Collection: Pneumatic tubes, 19th century

Pneumatic tubes, 19th century
Pneumatic tubes. Historical artwork of a pneumatic messaging system at the Paris Post Office, France, in the 19th century

Background imageAir Pressure Collection: Guericke experimenting with electricity

Guericke experimenting with electricity
Otto von Guericke (1602-1686), German physicist, operating the first static electricity generator. His generator consisted of a large ball of sulphur (yellow)

Background imageAir Pressure Collection: Mini weather station

Mini weather station. This solar-powered outdoors climate monitor detects changes in temperature, rainfall, wind and air pressure

Background imageAir Pressure Collection: 17th Century science demonstration

17th Century science demonstration. Historical artwork of a man pointing to a glass globe during an experiment to demonstrate the force of air pressure on a vacuum. Published in 1672

Background imageAir Pressure Collection: Gulf of Mexico hurricane, isobar diagram

Gulf of Mexico hurricane, isobar diagram. The isobars (white lines) connect areas of equal pressure, and are used on meteorological maps to help predict future weather patterns

Background imageAir Pressure Collection: European severe storm, isobar diagram

European severe storm, isobar diagram. The isobars (white lines) connect areas of equal pressure, and are used on meteorological maps to help predict future weather patterns

Background imageAir Pressure Collection: Internal ear, artwork

Internal ear, artwork
Internal ear. Artwork of a female face showing the structure of the internal ear

Background imageAir Pressure Collection: Plastic suction cups

Plastic suction cups holding a shower caddy to a glass wall. Pressing the suction cup to a smooth, non-porous surface reduces the internal air pressure and creates a vacuum


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Air pressure plays a crucial role in various aspects of transportation and engineering. From the Pump Governor developed by Westinghouse Air Brake to the Atmospheric Railway at Dawlish, it has been harnessed for its incredible power and efficiency. In 1847, an unknown creator introduced the world to the Atmospheric Railway at Dawlish. This innovative system utilized air pressure to propel trains along tracks, revolutionizing locomotion during that time period. Equilibrium and movement of the air were carefully studied in c1851, further enhancing our understanding of this powerful force. The leading carriages showcased intricate mechanisms such as tubes, pistons, heaters, and closing wheels in 1845. These components worked together harmoniously under the influence to ensure smooth operation on railway lines. The Viaduct on the Croydon Atmospheric Railway stood tall as a testament to human ingenuity in 1845. Portions of tubes used on atmospheric railways were captured by unknown creators in 1845. These images highlight how engineers incorporated air pressure into their designs with precision and accuracy. Meanwhile, picturesque views of Dawlish, Devon around c1860 remind us how nature coexists with man-made marvels powered by air pressure. Beyond Britain's shores lay other remarkable examples like Kingstown and Dalkey Atmospheric Railway near Dublin (1845) or Clegg and Samudas atmospheric railway (1845). These projects demonstrated that harnessing air pressure was not limited to one location but had global potential. However, it was Otto von Guericke who truly pioneered our understanding of this phenomenon back in 1672 when he conducted demonstrations showcasing both the power and strength within a vacuum. As a German inventor, engineer, and physicist ahead of his time; Von Guericke's contributions paved the way for future advancements utilizing this invisible force. Today we continue to benefit from these early discoveries as we witness how modern technology utilizes air pressure in various applications.

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