Difference between revisions of "Template:Pd Paraglider/Dictionary"

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(Created page with "<noinclude> <languages /> ==<translate><!--T:1--> List of Property names</translate>== - ''<translate><!--T:2--> not for including</translate>'' - <translate> <!--T:3--> Row...")
 
(Marked this version for translation)
 
(One intermediate revision by the same user not shown)
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Data: <div style="border:1px solid green; padding:5px 10px;">
 
Data: <div style="border:1px solid green; padding:5px 10px;">
  
* main_use: <translate><!--T:10--> Main-Use | Wing's performance (Initiation, Leisure, Cross, Competition, Tandem, Acro, Mountain, Paramotor, SpeedFlying, SpeedRiding)</translate>
+
* main_use: <translate><!--T:5--> Main-Use | Wing's performance (Initiation, Leisure, Cross, Competition, Tandem, Acro, Mountain, Paramotor, SpeedFlying, SpeedRiding)</translate>
* size: <translate><!--T:5--> Size | The alias of the paraglider of a certain size</translate>
+
* size: <translate><!--T:6--> Size | The alias of the paraglider of a certain size</translate>
* year: <translate><!--T:15--> Year | Year of development</translate>
+
* year: <translate><!--T:7--> Year | Year of development</translate>
* in_flight_weight: <translate><!--T:6--> In-Flight-Weight | Takeoff weight - weight of the pilot with all equipment</translate>
+
* in_flight_weight: <translate><!--T:8--> In-Flight-Weight | Takeoff weight - weight of the pilot with all equipment</translate>
* naked_pilot: <translate><!--T:17--> Naked pilot | Weight of the pilot without equipment</translate>
+
* naked_pilot: <translate><!--T:9--> Naked pilot | Weight of the pilot without equipment</translate>
* certifications: <translate><!--T:18--> Certifications | LTF/EN certification</translate>
+
* certifications: <translate><!--T:10--> Certifications | LTF/EN certification</translate>
  
* area_flat: <translate><!--T:8--> Area (flat) | Paraglider area</translate>
+
* area_flat: <translate><!--T:11--> Area (flat) | Paraglider area</translate>
* area_proj: <translate><!--T:19--> Area (proj.) | Paraglider area in projection</translate>
+
* area_proj: <translate><!--T:12--> Area (proj.) | Paraglider area in projection</translate>
* span_flat: <translate><!--T:9--> Span (flat) | Wingspan of the paraglider</translate>
+
* span_flat: <translate><!--T:13--> Span (flat) | Wingspan of the paraglider</translate>
* span_proj: <translate><!--T:20--> Span (proj) | Wingspan of the paraglider in projection</translate>
+
* span_proj: <translate><!--T:14--> Span (proj) | Wingspan of the paraglider in projection</translate>
* ratio_flat: <translate><!--T:21--> Ratio (flat) | Aspect ratio - the wingspan divided by the cord of the wing</translate>
+
* ratio_flat: <translate><!--T:15--> Ratio (flat) | Aspect ratio - the wingspan divided by the cord of the wing</translate>
* ratio_proj: <translate><!--T:22--> Ratio (proj.) | The aspect ratio of the wing projected on the ground.</translate>
+
* ratio_proj: <translate><!--T:16--> Ratio (proj.) | The aspect ratio of the wing projected on the ground.</translate>
  
* wing_load: <translate><!--T:23--> Wing load | Wing load = In_Flight_Weight / Area_F</translate>
+
* wing_load: <translate><!--T:17--> Wing load | Wing load = In_Flight_Weight / Area_F</translate>
* flattening: <translate><!--T:24--> Flattening | flattening = (Area_F - Area_P) / Area_F</translate>
+
* flattening: <translate><!--T:18--> Flattening | flattening = (Area_F - Area_P) / Area_F</translate>
  
* rows: <translate><!--T:25--> Rows | Number of rows</translate>
+
* rows: <translate><!--T:19--> Rows | Number of rows</translate>
* boxes: <translate><!--T:26--> Boxes | Number of cell-boxes (cell-blocks)</translate>
+
* boxes: <translate><!--T:20--> Boxes | Number of cell-boxes (cell-blocks)</translate>
* cells: <translate><!--T:27--> Cells | Number of cells</translate>
+
* cells: <translate><!--T:21--> Cells | Number of cells</translate>
* closed_cells: <translate><!--T:28--> Closed Cells | The number of cells with closed air intakes</translate>
+
* closed_cells: <translate><!--T:22--> Closed Cells | The number of cells with closed air intakes</translate>
* risers: <translate><!--T:29--> Risers (lines) | Risers scheme</translate>
+
* risers: <translate><!--T:23--> Risers (lines) | Risers scheme</translate>
* accelerator: <translate><!--T:30--> Accelerator | Accelerator travel</translate>
+
* accelerator: <translate><!--T:24--> Accelerator | Accelerator travel</translate>
* trims: <translate><!--T:31--> Trims | The presence of trims</translate>
+
* trims: <translate><!--T:25--> Trims | The presence of trims</translate>
* ears: <translate><!--T:32--> Ears | The presence of ear-lines</translate>
+
* ears: <translate><!--T:26--> Ears | The presence of ear-lines</translate>
* b_lines: <translate><!--T:33--> B-Lines | The presence of B-lines</translate>
+
* b_lines: <translate><!--T:27--> B-Lines | The presence of B-lines</translate>
  
* wing_weight: <translate><!--T:7--> Wing-Weight | Weight of paraglider only</translate>
+
* wing_weight: <translate><!--T:28--> Wing-Weight | Weight of paraglider only</translate>
* upper_surface: <translate><!--T:34--> Upper surface Type | Upper surface material</translate>
+
* upper_surface: <translate><!--T:29--> Upper surface Type | Upper surface material</translate>
* under_surface: <translate><!--T:35--> Under surface Type | Under surface material</translate>
+
* under_surface: <translate><!--T:30--> Under surface Type | Under surface material</translate>
* lines_type: <translate><!--T:36--> Lines Type | Used lines materials</translate>
+
* lines_type: <translate><!--T:31--> Lines Type | Used lines materials</translate>
* lines_diam: <translate><!--T:37--> Lines &Oslash; Diam. | Lines diameters</translate>
+
* lines_diam: <translate><!--T:32--> Lines &Oslash; Diam. | Lines diameters</translate>
* lines_distance: <translate><!--T:38--> Lines Distance | The distance between risers and the central point of wing</translate>
+
* lines_distance: <translate><!--T:33--> Lines Distance | The distance between risers and the central point of wing</translate>
* lines_total: <translate><!--T:39--> Lines Total | Total length of the lines</translate>
+
* lines_total: <translate><!--T:34--> Lines Total | Total length of the lines</translate>
  
* max_speed: <translate><!--T:40--> Maximum Speed | Maximum speed via accelerator or trimmers</translate>
+
* max_speed: <translate><!--T:35--> Maximum Speed | Maximum speed via accelerator or trimmers</translate>
* basic_speed: <translate><!--T:41--> Basic Speed | Highest speed without the brakes, accelerator and trimmers</translate>
+
* basic_speed: <translate><!--T:36--> Basic Speed | Highest speed without the brakes, accelerator and trimmers</translate>
* min_speed: <translate><!--T:42--> Minimum Speed | Minimum speed while the wing stays airworthy</translate>
+
* min_speed: <translate><!--T:37--> Minimum Speed | Minimum speed while the wing stays airworthy</translate>
* best_sink_rate: <translate><!--T:43--> Best Sink rate | The slowest descent rate for an average in-fight-weight</translate>
+
* best_sink_rate: <translate><!--T:38--> Best Sink rate | The slowest descent rate for an average in-fight-weight</translate>
* best_glide: <translate><!--T:44--> Best Glide | The ratio of the sink rate and horizontal speed to achieve the best glide Vz-&gt;Vi</translate>
+
* best_glide: <translate><!--T:39--> Best Glide | The ratio of the sink rate and horizontal speed to achieve the best glide Vz-&gt;Vi</translate>
* best_glide_ratio: <translate><!--T:45--> Best Glide Ratio | The estimated best ratio of horizontal speed to vertical (in parentheses - manufacturer's data)</translate>
+
* best_glide_ratio: <translate><!--T:40--> Best Glide Ratio | The estimated best ratio of horizontal speed to vertical (in parentheses - manufacturer's data)</translate>
  
* yes: <translate><!--T:11--> Yes</translate>
+
* yes: <translate><!--T:41--> Yes</translate>
* no: <translate><!--T:12--> No</translate>
+
* no: <translate><!--T:42--> No</translate>
* optional: <translate><!--T:61--> Optional</translate>
+
* optional: <translate><!--T:43--> Optional</translate>
* size_of_paraglider: <translate><!--T:13--> Size of Paraglider</translate>
+
* size_of_paraglider: <translate><!--T:44--> Size of Paraglider</translate>
* year_of_development: <translate><!--T:16--> Year of development</translate>
+
* year_of_development: <translate><!--T:45--> Year of development</translate>
 
* initiation: <translate><!--T:46--> Initiation</translate>
 
* initiation: <translate><!--T:46--> Initiation</translate>
* leisure: <translate><!--T:14--> Leisure</translate>
+
* leisure: <translate><!--T:47--> Leisure</translate>
* cross: <translate><!--T:47--> Cross</translate>
+
* cross: <translate><!--T:48--> Cross</translate>
* competition: <translate><!--T:48--> Competition</translate>
+
* competition: <translate><!--T:49--> Competition</translate>
* tandem: <translate><!--T:49--> Tandem</translate>
+
* tandem: <translate><!--T:50--> Tandem</translate>
* acro: <translate><!--T:50--> Acro</translate>
+
* acro: <translate><!--T:51--> Acro</translate>
* mountain: <translate><!--T:51--> Mountain</translate>
+
* mountain: <translate><!--T:52--> Mountain</translate>
* paramotor: <translate><!--T:52--> Paramotor</translate>
+
* paramotor: <translate><!--T:53--> Paramotor</translate>
* speedflying: <translate><!--T:53--> SpeedFlying</translate>
+
* speedflying: <translate><!--T:54--> SpeedFlying</translate>
* speedriding: <translate><!--T:54--> SpeedRiding</translate>
+
* speedriding: <translate><!--T:55--> SpeedRiding</translate>
* uom_kg_m2: <translate><!--T:62--> kg/m&sup2;</translate>
+
* uom_kg_m2: <translate><!--T:56--> kg/m&sup2;</translate>
* uom_g_m2: <translate><!--T:59--> g/m&sup2;</translate>
+
* uom_g_m2: <translate><!--T:57--> g/m&sup2;</translate>
 
* uom_km_h: <translate><!--T:58--> km/h</translate>
 
* uom_km_h: <translate><!--T:58--> km/h</translate>
* uom_m_s: <translate><!--T:57--> m/s</translate>
+
* uom_m_s: <translate><!--T:59--> m/s</translate>
 
* uom_mm: <translate><!--T:60--> mm</translate>
 
* uom_mm: <translate><!--T:60--> mm</translate>
* uom_cm: <translate><!--T:56--> cm</translate>
+
* uom_cm: <translate><!--T:61--> cm</translate>
* uom_m2: <translate><!--T:63--> m&sup2;</translate>
+
* uom_m2: <translate><!--T:62--> m&sup2;</translate>
* uom_m: <translate><!--T:55--> m</translate>
+
* uom_m: <translate><!--T:63--> m</translate>
* uom_kg: <translate><!--T:65--> kg</translate>
+
* uom_kg: <translate><!--T:64--> kg</translate>
* uom_g: <translate><!--T:64--> g</translate>
+
* uom_g: <translate><!--T:65--> g</translate>
  
 
</div>
 
</div>
 
</noinclude>
 
</noinclude>

Latest revision as of 03:13, 12 July 2019

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List of Property names

- not for including -

Row format:

  1. * phrase_id: Property name | Description
  2. * phrase_id: Phrase text


Do not remove the markup 'Data: <div>...</div>'

Data:

  • main_use: Main-Use | Wing's performance (Initiation, Leisure, Cross, Competition, Tandem, Acro, Mountain, Paramotor, SpeedFlying, SpeedRiding)
  • size: Size | The alias of the paraglider of a certain size
  • year: Year | Year of development
  • in_flight_weight: In-Flight-Weight | Takeoff weight - weight of the pilot with all equipment
  • naked_pilot: Naked pilot | Weight of the pilot without equipment
  • certifications: Certifications | LTF/EN certification
  • area_flat: Area (flat) | Paraglider area
  • area_proj: Area (proj.) | Paraglider area in projection
  • span_flat: Span (flat) | Wingspan of the paraglider
  • span_proj: Span (proj) | Wingspan of the paraglider in projection
  • ratio_flat: Ratio (flat) | Aspect ratio - the wingspan divided by the cord of the wing
  • ratio_proj: Ratio (proj.) | The aspect ratio of the wing projected on the ground.
  • wing_load: Wing load | Wing load = In_Flight_Weight / Area_F
  • flattening: Flattening | flattening = (Area_F - Area_P) / Area_F
  • rows: Rows | Number of rows
  • boxes: Boxes | Number of cell-boxes (cell-blocks)
  • cells: Cells | Number of cells
  • closed_cells: Closed Cells | The number of cells with closed air intakes
  • risers: Risers (lines) | Risers scheme
  • accelerator: Accelerator | Accelerator travel
  • trims: Trims | The presence of trims
  • ears: Ears | The presence of ear-lines
  • b_lines: B-Lines | The presence of B-lines
  • wing_weight: Wing-Weight | Weight of paraglider only
  • upper_surface: Upper surface Type | Upper surface material
  • under_surface: Under surface Type | Under surface material
  • lines_type: Lines Type | Used lines materials
  • lines_diam: Lines Ø Diam. | Lines diameters
  • lines_distance: Lines Distance | The distance between risers and the central point of wing
  • lines_total: Lines Total | Total length of the lines
  • max_speed: Maximum Speed | Maximum speed via accelerator or trimmers
  • basic_speed: Basic Speed | Highest speed without the brakes, accelerator and trimmers
  • min_speed: Minimum Speed | Minimum speed while the wing stays airworthy
  • best_sink_rate: Best Sink rate | The slowest descent rate for an average in-fight-weight
  • best_glide: Best Glide | The ratio of the sink rate and horizontal speed to achieve the best glide Vz->Vi
  • best_glide_ratio: Best Glide Ratio | The estimated best ratio of horizontal speed to vertical (in parentheses - manufacturer's data)
  • yes: Yes
  • no: No
  • optional: Optional
  • size_of_paraglider: Size of Paraglider
  • year_of_development: Year of development
  • initiation: Initiation
  • leisure: Leisure
  • cross: Cross
  • competition: Competition
  • tandem: Tandem
  • acro: Acro
  • mountain: Mountain
  • paramotor: Paramotor
  • speedflying: SpeedFlying
  • speedriding: SpeedRiding
  • uom_kg_m2: kg/m²
  • uom_g_m2: g/m²
  • uom_km_h: km/h
  • uom_m_s: m/s
  • uom_mm: mm
  • uom_cm: cm
  • uom_m2: m²
  • uom_m: m
  • uom_kg: kg
  • uom_g: g