Difference between revisions of "Topic/table/engineering"

Latest revision as of 04:03, 20 December 2022

Topic	Description	Wikipedia link	Subdivision	Skills used in research
Armillary sphere	The construction and use of armillary spheres	Armillary sphere	Astronomy	Mechanic
Astrolabe	The construction and use of the astrolabe	Astrolabe	Astronomy	Mechanic
Dioptra	The construction and use of the dioptra	Dioptra	Astronomy	Mechanic
Mural instrument	The construction and use of a mural instrument or mural quadrant	Mural instrument	Astronomy	Mechanic
Orrery	The construction and use of the orrery	Orrery	Astronomy	Mechanic
Spherical astrolabe	The construction and use of the spherical astrolabe	Astrolabe	Astronomy	Mechanic
Wood lamination	The use of lamination	Lamination	Construction	Mechanic
Models and templates	The use of models and templates in engineering	Prototype and Stencil	Design	Mechanic
Archimedes principle	The law of fluid displacement	Archimedes' principle	Fluid	Fluid engineer
Force pump	The construction and use of the force pump	Piston pump § Force pump	Fluid	Fluid engineer
Theory of siphon	The action of the siphon	Siphon	Fluid	Fluid engineer
Valves	The construction and use of valves	Valve	Fluid	Fluid engineer
Astrarium	The construction and use of the astrarium	Astrarium	Horology	Mechanic
Conical water clock	The use of conical shapes in water-based clocks to improve their accuracy	Water clock	Horology	Fluid engineer
Hourglass	The construction and use of the hourglass	Hourglass	Horology	Mechanic
Mechanical clock	The construction and use of mechanical clocks	Clock § Early mechanical clocks	Horology	Mechanic
Shadow clock	The use of shadows to tell direction and time	Sundial	Horology	Mechanic
Water clock	The use of water-based devices to tell time	Water clock	Horology	Fluid engineer
Water clock reservoir	The use of reservoirs in water-based clocks to improve their accuracy	Zhang Heng § Extra tank for inflow clepsydra	Horology	Fluid engineer
Balance wheel	The construction and use of the balance wheel.	Balance wheel	Machine	Mechanic
Bellows	The construction and use of the bellows	Bellows	Machine	Mechanic
Camshaft	The construction and use of the camshaft	Camshaft	Machine	Mechanic
Chain drive	The construction and use of chain drives	Chain drive	Machine	Mechanic
Chariot odometer	The construction and use of the chariot odometer	Odometer	Machine	Mechanic
Combination lock	The construction and use of the combination lock	Combination lock	Machine	Mechanic
Crank	The construction and use of the crank	Crank (mechanism)	Machine	Mechanic
Crankshaft	The construction and use of the crankshaft	Crankshaft	Machine	Mechanic
Differential gear	The construction and use of the differential gear	Differential (mechanical device)	Machine	Mechanic
Double acting piston bellows	The construction and use of the double-acting piston bellows	Bellows	Machine	Mechanic
Lever	The construction and use of the lever	Lever	Machine	Mechanic
Mechanical compass	The construction and use of the mechanical compass	Compass	Machine	Mechanic
Padlock	The construction and use of the padlock	Padlock	Machine	Mechanic
Piston	The construction and use of the piston.	Piston pump § Force pump	Machine	Mechanic
Pulley	The construction and use of the pulley	Pulley	Machine	Mechanic
Screw	The construction and use of the screw	Screw	Machine	Mechanic
Straight beam balance	The construction and use of the straight-beam balance	Weighing scale § Mechanical balances	Machine	Mechanic
Theory of gears	The reasons why gears are effective	Gear	Machine	Mechanic
Theory of lever	The reasons why the lever is effective	Lever	Machine	Mechanic
Theory of pulley	The reasons why pulleys are effective	Pulley	Machine	Mechanic
Theory of screw	The reasons why screws are effective	Screw	Machine	Mechanic
Theory of wedge	The reasons why the wedge is effective	Wedge	Machine	Mechanic
Theory of wheel and axle	The reasons why the wheel-and-axle construction is effective	Wheel and axle	Machine	Mechanic
Trip hammer	The construction and use of the trip-hammer.	Trip hammer	Machine	Mechanic
Tumbler lock	The construction and use of the tumbler lock	Pin tumbler lock	Machine	Mechanic
Verge escapement	The construction and use of the verge escapement	Verge escapement	Machine	Mechanic
Warded lock	The construction and use of the warded lock	Warded lock	Machine	Mechanic
Water-powered piston bellows	The construction and use of the water-powered piston bellows.	Du Shi § The Water-Powered Blast Furnace	Machine	Mechanic
Water-powered sawmill	The construction and use of the water-powered sawmill.	Watermill	Machine	Mechanic
Water-powered trip hammer	The construction and use of the water-powered trip hammer	Trip hammer and Water wheel	Machine	Mechanic
Water wheel	The construction and use of the water wheel.	Water wheel	Machine	Mechanic
Windlass	The construction and use of the windlass	Windlass	Machine	Mechanic
Atmospheric refraction	atmospheric refraction	Atmospheric refraction	Optics	Optics engineer
Camera obscura	The construction and use of the camera obscura	Camera obscura	Optics	Optics engineer
Cause of twilight	a precise explanation of the cause of twilight involving atmospheric refraction	Atmospheric optics	Optics	Optics engineer
Crystal lens	The construction and use of the crystal lens	Lens (optics) and Crystal	Optics	Optics engineer
Glass lens	The construction and use of the glass lens	Lens (optics) and Glass	Optics	Optics engineer
Height of atmosphere	The calculation of the height of the atmosphere based on atmospheric refraction	Atmosphere of Earth	Optics	Optics engineer
Law of refraction	The relation between refraction and the half chord	Snell's law	Optics	Mechanic
Parabolic mirror	The construction and use of the parabolic mirror.	Parabolic reflector	Optics	Optics engineer
Theory of color	The theory of light and color	Color theory	Optics	Optics engineer
Theory of rainbows	The appearance of rainbows based on optical theories	Rainbows	Optics	Optics engineer
Water-filled spheres	The construction and use of water-filled spheres as lenses	Lens (optics) and History of optics § Early history of optics	Optics	Optics engineer

Difference between revisions of "Topic/table/engineering"

Latest revision as of 04:03, 20 December 2022

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@@ Line 4: / Line 4: @@
 ! scope="col" style="width: 25%;" | Wikipedia link
 ! scope="col" style="width: 25%;" | Subdivision
+! scope="col" style="width: 25%;" | Skills used in research
 |-
 |Armillary sphere
@@ Line 9: / Line 10: @@
 |[[wikipedia:Armillary sphere|Armillary sphere]]
 |Astronomy
+|[[Mechanic]]
 |-
 |Astrolabe
@@ Line 14: / Line 16: @@
 |[[wikipedia:Astrolabe|Astrolabe]]
 |Astronomy
+|[[Mechanic]]
 |-
 |Dioptra
@@ Line 19: / Line 22: @@
 |[[wikipedia:Dioptra|Dioptra]]
 |Astronomy
+|[[Mechanic]]
 |-
 |Mural instrument
@@ Line 24: / Line 28: @@
 |[[wikipedia:Mural instrument|Mural instrument]]
 |Astronomy
+|[[Mechanic]]
 |-
 |Orrery
-|
+|The construction and use of the orrery
 |[[wikipedia:Orrery|Orrery]]
 |Astronomy
+|[[Mechanic]]
 |-
 |Spherical astrolabe
-|
+|The construction and use of the spherical astrolabe
 |[[wikipedia:Astrolabe|Astrolabe]]
 |Astronomy
+|[[Mechanic]]
 |-
 |Wood lamination
@@ Line 39: / Line 46: @@
 |[[wikipedia:Lamination|Lamination]]
 |Construction
+|[[Mechanic]]
 |-
 |Models and templates
@@ Line 44: / Line 52: @@
 |[[wikipedia:Prototype|Prototype]] and [[wikipedia:Stencil|Stencil]]
 |Design
+|[[Mechanic]]
 |-
 |Archimedes principle
@@ Line 49: / Line 58: @@
 |[[wikipedia:Archimedes' principle|Archimedes' principle]]
 |Fluid
+|[[Fluid engineer]]
 |-
 |Force pump
-|
+|The construction and use of the force pump
 |[[wikipedia:Piston pump#Force pump|Piston pump § Force pump]]
 |Fluid
+|[[Fluid engineer]]
 |-
 |Theory of siphon
@@ Line 59: / Line 70: @@
 |[[wikipedia:Siphon|Siphon]]
 |Fluid
+|[[Fluid engineer]]
 |-
 |Valves
@@ Line 64: / Line 76: @@
 |[[wikipedia:Valve|Valve]]
 |Fluid
+|[[Fluid engineer]]
 |-
 |Astrarium
-|
+|The construction and use of the astrarium
 |[[wikipedia:Astrarium|Astrarium]]
 |Horology
+|[[Mechanic]]
 |-
 |Conical water clock
-|
+|The use of conical shapes in water-based clocks to improve their accuracy
 |[[wikipedia:Water clock|Water clock]]
 |Horology
+|[[Fluid engineer]]
 |-
 |Hourglass
-|
+|The construction and use of the hourglass
 |[[wikipedia:Hourglass|Hourglass]]
 |Horology
+|[[Mechanic]]
 |-
 |Mechanical clock
-|
+|The construction and use of mechanical clocks
 |[[wikipedia:Clock#Early mechanical clocks|Clock § Early mechanical clocks]]
 |Horology
+|[[Mechanic]]
 |-
 |Shadow clock
@@ Line 89: / Line 106: @@
 |[[wikipedia:Sundial|Sundial]]
 |Horology
+|[[Mechanic]]
 |-
 |Water clock
@@ Line 94: / Line 112: @@
 |[[wikipedia:Water clock|Water clock]]
 |Horology
+|[[Fluid engineer]]
 |-
 |Water clock reservoir
@@ Line 99: / Line 118: @@
 |[[wikipedia:Zhang_Heng#Extra_tank_for_inflow_clepsydra|Zhang Heng § Extra tank for inflow clepsydra]]
 |Horology
+|[[Fluid engineer]]
 |-
 |Balance wheel
-|
+|The construction and use of the balance wheel.
 |[[wikipedia:Balance wheel|Balance wheel]]
 |Machine
+|[[Mechanic]]
 |-
 |Bellows
@@ Line 109: / Line 130: @@
 |[[wikipedia:Bellows|Bellows]]
 |Machine
+|[[Mechanic]]
 |-
 |Camshaft
-|
+|The construction and use of the camshaft
 |[[wikipedia:Camshaft|Camshaft]]
 |Machine
+|[[Mechanic]]
 |-
 |Chain drive
@@ Line 119: / Line 142: @@
 |[[wikipedia:Chain drive|Chain drive]]
 |Machine
+|[[Mechanic]]
 |-
 |Chariot odometer
-|
+|The construction and use of the chariot odometer
 |[[wikipedia:Odometer|Odometer]]
 |Machine
+|[[Mechanic]]
 |-
 |Combination lock
-|
+|The construction and use of the combination lock
 |[[wikipedia:Combination lock|Combination lock]]
 |Machine
+|[[Mechanic]]
 |-
 |Crank
-|
+|The construction and use of the crank
 |[[wikipedia:Crank (mechanism)|Crank (mechanism)]]
 |Machine
+|[[Mechanic]]
 |-
 |Crankshaft
-|
+|The construction and use of the crankshaft
 |[[wikipedia:Crankshaft|Crankshaft]]
 |Machine
+|[[Mechanic]]
 |-
 |Differential gear
-|
+|The construction and use of the differential gear
 |[[wikipedia:Differential (mechanical device)|Differential (mechanical device)]]
 |Machine
+|[[Mechanic]]
 |-
 |Double acting piston bellows
-|
+|The construction and use of the double-acting piston bellows
 |[[wikipedia:Bellows|Bellows]]
 |Machine
+|[[Mechanic]]
 |-
 |Lever
@@ Line 154: / Line 184: @@
 |[[wikipedia:Lever|Lever]]
 |Machine
+|[[Mechanic]]
 |-
 |Mechanical compass
-|
+|The construction and use of the mechanical compass
 |[[wikipedia:Compass|Compass]]
 |Machine
+|[[Mechanic]]
 |-
 |Padlock
@@ Line 164: / Line 196: @@
 |[[wikipedia:Padlock|Padlock]]
 |Machine
+|[[Mechanic]]
 |-
 |Piston
-|
+|The construction and use of the piston.
 |[[wikipedia:Piston pump#Force pump|Piston pump § Force pump]]
 |Machine
+|[[Mechanic]]
 |-
 |Pulley
@@ Line 174: / Line 208: @@
 |[[wikipedia:Pulley|Pulley]]
 |Machine
+|[[Mechanic]]
 |-
 |Screw
@@ Line 179: / Line 214: @@
 |[[wikipedia:Screw|Screw]]
 |Machine
+|[[Mechanic]]
 |-
 |Straight beam balance
@@ Line 184: / Line 220: @@
 |[[wikipedia:Weighing scale#Mechanical balances|Weighing scale § Mechanical balances]]
 |Machine
+|[[Mechanic]]
 |-
 |Theory of gears
@@ Line 189: / Line 226: @@
 |[[wikipedia:Gear|Gear]]
 |Machine
+|[[Mechanic]]
 |-
 |Theory of lever
@@ Line 194: / Line 232: @@
 |[[wikipedia:Lever|Lever]]
 |Machine
+|[[Mechanic]]
 |-
 |Theory of pulley
@@ Line 199: / Line 238: @@
 |[[wikipedia:Pulley|Pulley]]
 |Machine
+|[[Mechanic]]
 |-
 |Theory of screw
@@ Line 204: / Line 244: @@
 |[[wikipedia:Screw|Screw]]
 |Machine
+|[[Mechanic]]
 |-
 |Theory of wedge
@@ Line 209: / Line 250: @@
 |[[wikipedia:Wedge (mechanical device)|Wedge]]
 |Machine
+|[[Mechanic]]
 |-
 |Theory of wheel and axle
@@ Line 214: / Line 256: @@
 |[[wikipedia:Wheel and axle|Wheel and axle]]
 |Machine
+|[[Mechanic]]
 |-
 |Trip hammer
-|
+|The construction and use of the trip-hammer.
 |[[wikipedia:Trip hammer|Trip hammer]]
 |Machine
+|[[Mechanic]]
 |-
 |Tumbler lock
@@ Line 224: / Line 268: @@
 |[[wikipedia:Pin tumbler lock|Pin tumbler lock]]
 |Machine
+|[[Mechanic]]
 |-
 |Verge escapement
@@ Line 229: / Line 274: @@
 |[[wikipedia:Verge escapement|Verge escapement]]
 |Machine
+|[[Mechanic]]
 |-
 |Warded lock
@@ Line 234: / Line 280: @@
 |[[wikipedia:Warded lock|Warded lock]]
 |Machine
+|[[Mechanic]]
 |-
 |Water-powered piston bellows
-|
+|The construction and use of the water-powered piston bellows.
 |[[wikipedia:Du_Shi#The_Water-Powered_Blast_Furnace|Du Shi § The Water-Powered Blast Furnace]]
 |Machine
+|[[Mechanic]]
 |-
 |Water-powered sawmill
-|
+|The construction and use of the water-powered sawmill.
 |[[wikipedia:Watermill|Watermill]]
 |Machine
+|[[Mechanic]]
 |-
 |Water-powered trip hammer
-|
+|The construction and use of the water-powered trip hammer
 |[[wikipedia:Trip hammer|Trip hammer]] and [[wikipedia:Water wheel|Water wheel]]
 |Machine
+|[[Mechanic]]
 |-
 |Water wheel
-|
+|The construction and use of the water wheel.
 |[[wikipedia:Water wheel|Water wheel]]
 |Machine
+|[[Mechanic]]
 |-
 |Windlass
@@ Line 259: / Line 310: @@
 |[[wikipedia:Windlass|Windlass]]
 |Machine
+|[[Mechanic]]
 |-
 |Atmospheric refraction
-|
+|atmospheric refraction
 |[[wikipedia:Atmospheric refraction|Atmospheric refraction]]
 |Optics
+|[[Optics engineer]]
 |-
 |Camera obscura
@@ Line 269: / Line 322: @@
 |[[wikipedia:Camera obscura|Camera obscura]]
 |Optics
+|[[Optics engineer]]
 |-
 |Cause of twilight
-|
+|a precise explanation of the cause of twilight involving atmospheric refraction
 |[[wikipedia:Atmospheric optics|Atmospheric optics]]
 |Optics
+|[[Optics engineer]]
 |-
 |Crystal lens
@@ Line 279: / Line 334: @@
 |[[wikipedia:Lens (optics)|Lens (optics)]] and [[wikipedia:Crystal|Crystal]]
 |Optics
+|[[Optics engineer]]
 |-
 |Glass lens
@@ Line 284: / Line 340: @@
 |[[wikipedia:Lens (optics)|Lens (optics)]] and [[wikipedia:Glass|Glass]]
 |Optics
+|[[Optics engineer]]
 |-
 |Height of atmosphere
-|
+|The calculation of the height of the atmosphere based on atmospheric refraction
 |[[wikipedia: Atmosphere of Earth|Atmosphere of Earth]]
 |Optics
+|[[Optics engineer]]
 |-
 |Law of refraction
-|
+|The relation between refraction and the half chord
 |[[wikipedia:Snell's law|Snell's law]]
 |Optics
+|[[Mechanic]]
 |-
 |Parabolic mirror
-|
+|The construction and use of the parabolic mirror.
 |[[wikipedia:Parabolic reflector|Parabolic reflector]]
 |Optics
+|[[Optics engineer]]
 |-
 |Theory of color
-|
+|The theory of light and color
 |[[wikipedia:Color theory|Color theory]]
 |Optics
+|[[Optics engineer]]
 |-
 |Theory of rainbows
-|
+|The appearance of rainbows based on optical theories
 |[[wikipedia:Rainbows|Rainbows]]
 |Optics
+|[[Optics engineer]]
 |-
 |Water-filled spheres
@@ Line 314: / Line 376: @@
 |[[wikipedia:Lens (optics)|Lens (optics)]] and [[wikipedia:History_of_optics#Early_history_of_optics|History of optics § Early history of optics]]
 |Optics
+||[[Optics engineer]]
 |}