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ENIGMA had 158,962,555,217,826,360,000 possible settings for just one encoded message, nearly 159 million million million combinations. Only one of these configurations would decrypt the message correctly. The scale of possibilities made codebreaking incredibly daunting; even

ENIGMA had 158,962,555,217,826,360,000 possible settings for just one encoded message, nearly 159 million million million combinations. Only one of these configurations would decrypt the message correctly. The scale of possibilities made codebreaking incredibly daunting; even

The "Jesus nut" is the main rotor nut of a helicopter. If it fails during flight, the rotor detaches, leaving the crew with no option but to pray.

The "Jesus nut" is the main rotor nut of a helicopter. If it fails during flight, the rotor detaches, leaving the crew with no option but to pray.

The "Jesus nut" is the main rotor nut of a helicopter. If it fails during flight, the rotor detaches, leaving the crew with no option but to pray.

“Reciprocating engines are exhausted... They have hundreds of parts jerking to and fro, and they cannot be made more powerful without becoming too complicated. The engine of the future must produce 2,000 hp with one moving part: a spinning turbine and compressor.” ~ lancelot law

“Reciprocating engines are exhausted... They have hundreds of parts jerking to and fro, and they cannot be made more powerful without becoming too complicated. The engine of the future must produce 2,000 hp with one moving part: a spinning turbine and compressor.” ~ lancelot law

“Reciprocating engines are exhausted... They have hundreds of parts jerking to and fro, and they cannot be made more powerful without becoming too complicated. The engine of the future must produce 2,000 hp with one moving part: a spinning turbine and compressor.” ~ lancelot law

Apple’s iconic Macintosh computer was named after Jef Raskin’s favorite type of apple, the McIntosh. But the name closely resembled McIntosh Laboratory, a high-end audio brand. To avoid legal conflict, Steve Jobs reached a deal with McIntosh president Gordon Gow. Starting

Apple’s iconic Macintosh computer was named after Jef Raskin’s favorite type of apple, the McIntosh. But the name closely resembled McIntosh Laboratory, a high-end audio brand. To avoid legal conflict, Steve Jobs reached a deal with McIntosh president Gordon Gow. Starting

Apple’s iconic Macintosh computer was named after Jef Raskin’s favorite type of apple, the McIntosh. But the name closely resembled McIntosh Laboratory, a high-end audio brand. To avoid legal conflict, Steve Jobs reached a deal with McIntosh president Gordon Gow. Starting

The M-209 was a compact cipher machine used by the U.S. in WWII. Designed by Boris Hagelin, it weighed 6.5 lbs (3 kg) and featured 6 key wheels, each with 26 positions and 27 movable pins. This mechanical device could generate over 100 quadrillion (10¹⁷) possible cipher

The M-209 was a compact cipher machine used by the U.S. in WWII. Designed by Boris Hagelin, it weighed 6.5 lbs (3 kg) and featured 6 key wheels, each with 26 positions and 27 movable pins. This mechanical device could generate over 100 quadrillion (10¹⁷) possible cipher

The M-209 was a compact cipher machine used by the U.S. in WWII. Designed by Boris Hagelin, it weighed 6.5 lbs (3 kg) and featured 6 key wheels, each with 26 positions and 27 movable pins. This mechanical device could generate over 100 quadrillion (10¹⁷) possible cipher

Thermometer 🌡️ Showing Temperature in Celsius and Kelvin

Thermometer 🌡️ Showing Temperature in Celsius and Kelvin

Thermometer 🌡️ Showing Temperature in Celsius and Kelvin

Julius von Mayer spotted in 1841 that energy is conserved, heat and work are two sides of the same coin. But without strong data, his idea fell flat. In contrast, James Joule’s precise experiments a year later grabbed the spotlight. Mayer, crushed by rejection and personal

Julius von Mayer spotted in 1841 that energy is conserved, heat and work are two sides of the same coin. But without strong data, his idea fell flat. In contrast, James Joule’s precise experiments a year later grabbed the spotlight. Mayer, crushed by rejection and personal

Julius von Mayer spotted in 1841 that energy is conserved, heat and work are two sides of the same coin. But without strong data, his idea fell flat. In contrast, James Joule’s precise experiments a year later grabbed the spotlight. Mayer, crushed by rejection and personal