Revision as of 17:05, 18 September 2024 edit Cl3phact0 (talk \| contribs) Extended confirmed users, New page reviewers 18,907 edits +ext link Tag: Visual edit ← Previous edit		Latest revision as of 00:51, 19 September 2024 edit undo Voidxor (talk \| contribs) Extended confirmed users, Pending changes reviewers, Rollbackers 37,463 edits Undid revision 1246388211 by Cl3phact0 (talk): We already have that video embedding in this article itself.
Line 51: === Epicyclic design === <!-- "Epicyclic differential" redirects here. --> [[File:Epicyclic gear ratios.png\|thumb\|Diagram of an [[epicyclic gearing]] system]] Line 90: Non-automotive uses of differentials include performing [[Analog signal\|analogue]] [[arithmetic]]. Two of the differential's three shafts are made to rotate through angles that represent (are proportional to) two numbers, and the angle of the third shaft's rotation represents the sum or difference of the two input numbers. The earliest known use of a differential gear is in the Antikythera mechanism, c. 80 BCE, which used a differential gear to control a small sphere representing the Moon from the difference between the Sun and Moon position pointers. The ball was painted black and white in hemispheres, and graphically showed the phase of the Moon at a particular point in time.<ref name="Wright-Reconsidered" /> An [[equation clock]] that used a differential for addition was made in 1720. In the 20th century, large assemblies of many differentials were used as [[Analog computer\|analogue computers]], calculating, for example, the direction in which a gun should be aimed.<ref>{{cite AV media \|title=Basic Mechanisms in Fire Control Computers, Part 1, Shafts Gears Cams and Differentials, posted as 'U.S. Navy Vintage Fire Control Computers' \|medium=Training Film \|url=https://www.youtube.com/watch?v=mQhmmTX5f9Y&list=PLF1A5EC36E8EDF711 \|archive-url=https://ghostarchive.org/varchive/youtube/20211118/mQhmmTX5f9Y\| archive-date=18 November 2021 \|url-status=live \|date=1953 \|time=37 seconds \|publisher=U.S. Navy \|id=MN-6783a \|access-date=20 September 2021 }}{{cbignore}}</ref> === Compass-like devices === Chinese south-pointing chariots may also have been very early applications of differentials. The chariot had a pointer which constantly pointed to the south, no matter how the chariot turned as it travelled. It could therefore be used as a type of [[compass]]. It is widely thought that a differential mechanism responded to any difference between the speeds of rotation of the two wheels of the chariot, and turned the pointer appropriately. However, the mechanism was not precise enough, and, after a few miles of travel, the dial could be pointing in the wrong direction. === Clocks === The earliest verified use of a differential was in a clock made by Joseph Williamson in 1720. It employed a differential to add the [[equation of time]] to [[local mean time]], as determined by the clock mechanism, to produce [[solar time]], which would have been the same as the reading of a [[sundial]]. During the 18th century, sundials were considered to show the "correct" time, so an ordinary clock would frequently have to be readjusted, even if it worked perfectly, because of seasonal variations in the equation of time. Williamson's and other equation clocks showed sundial time without needing readjustment. Nowadays, we consider clocks to be "correct" and sundials usually incorrect, so many sundials carry instructions about how to use their readings to obtain clock time. === Analogue computers === [[Differential analyzer\|Differential analysers]], a type of mechanical analogue computer, were used from approximately 1900 to 1950. These devices used differential gear trains to perform addition and subtraction. === Vehicle suspension === The Mars rovers ''[[Spirit (rover)\|Spirit]]'' and ''[[Opportunity (rover)\|Opportunity]]'' (both launched in 2004) used differential gears in their [[rocker-bogie]] suspensions to keep the rover body balanced as the wheels on the left and right move up and down over uneven terrain.<ref>{{cite web \|title=Rover Wheels \|url=https://mars.nasa.gov/mer/mission/rover/wheels-and-legs/ \|website=Mars.NASA.gov \|access-date=18 January 2023 }}</ref> The ''[[Curiosity (rover)\|Curiosity]]'' and ''[[Perseverance (rover)\|Perseverance]]'' rovers used a differential bar instead of gears to perform the same function.<ref>{{cite web \|title=Curiosity Mobility System, Labeled \|url=https://www.planetary.org/space-images/curiosity-mobility-system \|website=Planetary.org \|access-date=18 January 2023 }}</ref> Line 120: {{Commons category\|Automobile differentials}} * [https://www.youtube.com/watch?v=vBm-SzO3ggE A video of a 3D model of an open differential] * ''[https://www.roadandtrack.com/car-culture/classic-cars/a25833/1937-film-perfectly-explains-how-a-car-differential-works/ 1937 Film Perfectly Explains How a Car Differential Works]'', includes excellent historical footage of the main concepts {{Gears}}

Differential (mechanical device): Difference between revisions