Difference between revisions of "Mk16-XL Parachute"

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{{:Mk16-XL Parachute/Box}}
 
{{:Mk16-XL Parachute/Box}}
  
The '''Mk16-XL Parachute''' module is a [[parachute]] part which, once deployed in the atmosphere, will slow down attached parts. As it relies on the atmosphere, it is only useful on a few planets and moons, such as [[Kerbin]], but due to 'simplicity' of the simulation, it can be relied onto a safely bring a command pod down to the surface, maybe even with a few extra parts attached. Despite being 'XL', the [[parachute]] offers no extra drag, whether it is semi-deployed or fully deployed, the only difference is that it's bigger.
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The '''Mk16-XL Parachute''' module is a [[parachute]] part which, once deployed in the atmosphere, generates drag to slow down attached parts. As it relies on drag alone, it is only useful on planets and moons with a suitably dense atmosphere, such as [[Kerbin]]. It can be relied on to bring a Mk 1-2 Command Pod safely down to Kerbin's surface. Its properties are similar to the [[Mk16 Parachute]] but the Mk16-XL has a higher mass. Because KSP's drag simulation depends both on mass and the drag coefficient, this parachute can be relied upon to generate as much drag as three [[Mk16 Parachute|Mk16 Parachutes]].
  
 
== Usage ==
 
== Usage ==
When deployed the parachute will act as a drag chute until reaching an altitude less than 500 meters above the ground. Once under 500 meters the parachute will open, thus slowing down the attached parts even more to a (hopefully) nice safe descent. The parachutes' efficiency depends of atmospheric density (requires a minimum air pressure of 0.01), so they will not work or deploy in vacuum (i.e. in space or on small celestial bodies without atmosphere, such as the [[Mun]]).
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Standard parachutes open in two stages: partial and full deployment. Partial deployment is supposed to keep the craft falling at a manageable speed, without taking forever to reach the ground. Full deployment is supposed to slow the craft all the way to a (hopefully) nice safe landing. The parachutes' efficiency depends of atmospheric density (requires a minimum air pressure of 0.01 atm), so they will not work or deploy in vacuum (i.e. in space or on small celestial bodies without atmosphere, such as the [[Mun]]).
  
== Description ==
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This parachute replaces two radial mount parachutes and a nosecone. If you add it up, its mass is more than those three things combined - so it may seem not to make sense to use this XL version. However, the total drag is equal to just ''one'' radial parachute, which more than makes up for the extra mass.
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== Product description ==
 
{{Quote
 
{{Quote
|The Mk16-XL Parachute is a double-sized variant of the Mk16, now with only 50% of the structural integrity!
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|The Mk16-XL Parachute is a double-sized variant of the Mk16, now with only 50% of the structural integrity!}}
|unknown engineer}}
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== Gallery ==
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<gallery>
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Mk16-XL Parachute.jpg|Fully deployed parachute attached to [[Mk1-2 Command Pod]]
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</gallery>
  
 
== Changes ==
 
== Changes ==
 
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;[[0.18]]
;{{Version|0.18|}}
 
 
* Can no longer be placed radially
 
* Can no longer be placed radially
;{{Version|0.16|}}
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;[[0.16]]
 
* Initial release
 
* Initial release
 
  
 
{{Parts}}
 
{{Parts}}
 
[[Category:Parachutes]]
 
[[Category:Parachutes]]

Latest revision as of 13:55, 18 October 2016

Mk16-XL Parachute
Part image
Parachute by
Found lying by the side of the road

Radial size Small, Radial mounted
Cost (total) 850.00 Funds
Mass (total) 0.300 t
Drag 0.1
Max. Temp. 2500 K
Impact Tolerance 12 m/s
Research Advanced landing.png Landing
Unlock cost 4 600 Funds
Since version 0.16
Part configuration parachuteMk16-XL.cfg
Semi-Deployed Drag 1
Semi Deploy Min Pressure 0.04 atm
Fully-Deployed Drag 500
Full Deployment Altitude 1000 m AGL
Max. Temp. 650 K
Testing Environments
On the surface No
In the ocean No
On the launchpad No
In the atmosphere Yes
Sub-orbital No
In an orbit No
On an escape No
Docked No
Test by staging Yes
Manually testable No
Packed volume 1100 l

The Mk16-XL Parachute module is a parachute part which, once deployed in the atmosphere, generates drag to slow down attached parts. As it relies on drag alone, it is only useful on planets and moons with a suitably dense atmosphere, such as Kerbin. It can be relied on to bring a Mk 1-2 Command Pod safely down to Kerbin's surface. Its properties are similar to the Mk16 Parachute but the Mk16-XL has a higher mass. Because KSP's drag simulation depends both on mass and the drag coefficient, this parachute can be relied upon to generate as much drag as three Mk16 Parachutes.

Usage

Standard parachutes open in two stages: partial and full deployment. Partial deployment is supposed to keep the craft falling at a manageable speed, without taking forever to reach the ground. Full deployment is supposed to slow the craft all the way to a (hopefully) nice safe landing. The parachutes' efficiency depends of atmospheric density (requires a minimum air pressure of 0.01 atm), so they will not work or deploy in vacuum (i.e. in space or on small celestial bodies without atmosphere, such as the Mun).

This parachute replaces two radial mount parachutes and a nosecone. If you add it up, its mass is more than those three things combined - so it may seem not to make sense to use this XL version. However, the total drag is equal to just one radial parachute, which more than makes up for the extra mass.

Product description

The Mk16-XL Parachute is a double-sized variant of the Mk16, now with only 50% of the structural integrity!

Gallery

Changes

0.18
  • Can no longer be placed radially
0.16
  • Initial release