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7 - The Pratt & Whitney R-4360 Radia Engine

In 1940 the Pratt & Whitney Corp. started development of what would prove to be the largest, most complex, and most powerful aviation piston engine ever ever built. This engine was built during the WWII but when the war was over none of these engines could be used for combat aircraft. It did, however, power the last generation of large piston-engined aircraft before the turbojet and turboprop took over, these includes: the Boeing B-50 Superfortress, Convair B-36 Peacemaker, Martin AM-1 Mauler, Douglas C-124 Globemaster, and Boeing C-97 Stratocruiser. The Wasp Major was also used in a number of experimental aircraft that did not reach production status, such as the Republic XP-72, Goodyear F2G, and Northrup XB-35 Flying Wing.

Type: Radial Engine
Manufacturer: Pratt and Whitney
Model: R-4360 Wasp Major
Cylinders: 28 supercharged
Rows: 4 rows radial (odd number of engines per row, for valve timing)
Cooling: air cooled

Bore: 146.05 mm
Stroke: 152.4 mm
Displacement: 71.49 L
Length: 2 451 mm
Diameter: 1397 mm

Weight: ~ 1633 kg
Power(HP): 3000 ~ 4300

6 - The Aeternitas mega 4 watch

36 complications, 25 of them visible, 1,483 components, a 1000-year calendar, a price tag of 2.7 million dollars, and 5 years’ work; 99 jewels...
The glass sapphire case back enables the harmoniously chiselled and decorated pieces that overlap to be admired in a stunning combination as a dazzling ballet. This masterpiece of complications and know how was entirely designed and manufactured by the Franck Muller group and once again demonstrates their vast array of skills and ability in the Art of HAUTE HORLOGERIE.

Reference: 8888 MGA T CCR QPSE
Caliber: FM 3480 QPSE
Movement Mechanic Tourbillon, Carillon Westminster on 4 hammers and 4 gongs, Chronograph with fly-back mechanism and only one push-piece, Perpetual Calendar Secular, Equation of time, Two additional time zones, Automatic self-winding mechnanism for the movement and the Westminster carillon.

5 - Tianhe-1A computer

Tianhe-1A is using 7,168 NVIDIA Tesla M2050 GPUs and 14,336 Intel Xeon CPUs consuming 4.04 megawatts.
Tianhe-I, Tianhe-1, or TH-1 is a supercomputer capable of an Rmax (maximum range) of 2.566 petaFLOPS; that is, over 2½ quadrillion (thousand million million) floating point operations per second, or FLOPS. Located at the National Supercomputing Center in Tianjin, China, it is one of the fastest computers in the world and one of the few Petascale supercomputers in the world.

In October 2010, an upgraded version of the machine (Tianhe-1A) overtook ORNL's Jaguar to become the world's fastest supercomputer, with a peak computing rate of 2.507 petaFLOPS.
Both the original Tianhe-1 and Tianhe-1A use a Linux-based operating system.

4 - The USS New Hampshire (SSN-778)

Specifications: Power Plant: One S9G pressurized water reactor, 29.84MW (40,000hp), one shaft with pumpjet propulsor, Improved Performance Machinery Program Phase III one secondary propulsion submerged motor.
Displacement, 7,800 tons submerged.
Length: 377 feet. Draft: 32 feet. Beam: 34 feet. Speed: 25+ knots submerged.
Depth: Greater than 800 feet. Horizontal Tubes: Four 21" Torpedo Tubes, Vertical Tubes: 12 Vertical Launch System Tubes, Weapons: 38 weapons, including: Vertical Launch System Tomahawk Cruise Missiles, Mk 48 ADCAP Heavyweight Torpedoes, Advanced Mobile Mines, Unmanned Undersea Vehicles, Special Warfare: Dry Deck Shelter. Advanced SEAL Delivery System. Sonars: Spherical active/passive arrays.
Light Weight Wide Aperture Arrays. TB-16, TB-29, and future towed arrays.
High-frequency chin and sail arrays.
Countermeasures: 1 internal launcher (reloadable 2-barrel) 14 external launchers.
Crew: 113 officers and men.

3 - The Appollo Command Module

The command module's inner structure was an aluminum "sandwich" consisting of a welded aluminum inner skin, a thermally bonded honeycomb core, and a thin aluminum "face sheet".
The central heat shield consisted of 40 individual panels interspersed with several holes and openings for the reaction control engines and after-compartment equipment access.
The central compartment structure consisted of an inner aluminum face sheet with a steel honeycomb core, a glass-phenolic ablative honeycomb heat shield, a layer of q-felt fibrous insulation, a pore seal, a moisture barrier, and a layer of aluminized PET film thermal strips.

The aft heat shield consisted of four brazed honeycomb panels, four spot-welded sheet metal fairings, and a circumferential ring.
The fairing segments were attached to the honeycomb panels and ring with conventional fasteners. The steel honeycomb core and outer face sheets were then thermally bonded to the inner skin in a giant autoclave. The aft heat shield is nearly identical to the central, with the exception of the outer alluminized PET film layer.

2 - The Large Hadron Collider

The LHC, the world’s largest and most powerful particle accelerator, is the latest addition to CERN’s accelerator complex. It mainly consists of a 27 km ring of superconducting magnets with a number of accelerating structures to boost the energy of the particles along the way.

Inside the accelerator, two beams of particles travel at close to the speed of light with very high energies before colliding with one another. The beams travel in opposite directions in separate beam pipes – two tubes kept at ultrahigh vacuum.
They are guided around the accelerator ring by a strong magnetic field, achieved using superconducting electromagnets.
These are built from coils of special electric cable that operates in a superconducting state, efficiently conducting electricity without resistance or loss of energy.
This requires chilling the magnets to about ‑271°C – a temperature colder than outer space! For this reason, much of the accelerator is connected to a distribution system of liquid helium, which cools the magnets, as well as to other supply services.

Thousands of magnets of different varieties and sizes are used to direct the beams around the accelerator. These include 1232 dipole magnets of 15 m length which are used to bend the beams, and 392 quadrupole magnets, each 5–7 m long, to focus the beams. Just prior to collision, another type of magnet is used to 'squeeze' the particles closer together to increase the chances of collisions.
The particles are so tiny that the task of making them collide is akin to firing needles from two positions 10 km apart with such precision that they meet halfway!

1 - The Space Shuttle
The space shuttle has more than 2.5 million parts, including almost 370 kilometers (230 miles) of wire, more than 1,060 plumbing valves and connections, over 1,440 circuit breakers, and more than 27,000 insulating tiles and thermal blankets.

In 8 ½ minutes after launch, the shuttle accelerates from zero to about nine times as fast as a rifle bullet, or 28,002.6 kilometers per hour (17,400 miles per hour), to attain Earth orbit.

Credits: elevenaugust

laatste aanpassing
Artiest {SHOWLIST artist 44702, 68263}
Vet :D
Artiest {SHOWLIST artist 11802, 16036}
VInd dat horloge toch het knapst... Priegelwerk man om zo'n ding (werkend!) in elkaar te bouwen...
Lijst klopt dus geen zak van. De Space Shuttle is een beduidend simpeler apparaat dan een supercomputer, met name omdat het met technologie van de jaren '70 gemaakt is.

En vergelijk je die duikboot met een Nimitz-class supercarrier, dan is ook die eenvoudiger.
Artiest DanM
Complex, wat is complex? vrouwen zijn complex....;)
En ze zitten soms ook met allerlei complexen opgescheept :lol:
Complex onderwerp...
Artiest Synthopia
Ik vind de bagger 288 nogal een indrukwekkende machine overigens!

laatste aanpassing
En wat dacht je van deze:

Uitspraak van Bobje op maandag 11 juli 2011 om 12:11:
En wat dacht je van deze: