Difference between revisions of "User:JiminP"

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EN ⇒ KO
 
EN ⇒ KO
 
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[[Image:All-parts-rocket-0.8.5.png|right|thumb|버전 0.8.5에 있는 기본 부품들을 보여주는 3단 로켓]]
 
이 페이지는 제일 최근 유료 버전(현재 0.17.1)의 [[Kerbal Space Program]]에 포함되어 있는 로켓 '''부품'''들의 목록입니다. 이 부품들은 '''바닐라 부품''', '''기본 부품''' 등으로 불립니다.
 
 
데모 버전의 KSP에 있는 모든 부품의 목록을 보시려면 [[Demo Parts/ko|데모 부품]] 항목으로 가 주세요.
 
 
 
게임 안에서 [[Space Plane Hangar/ko|우주 비행기 조립실]]과 [[Vehicle Assembly Building/ko|로켓 조립실]]에서 쓰이는 부품들을 7개의 분류로 나눠놓았지만, 두 개의 분류에는 아직 어떠한 부품도 없습니다. 부품이 있는 다섯 개의 항목은 [[Parts/Command Pods/ko|사령실]], [[Parts/Propulsion/ko|추친체]] [[Parts/Commmand & Control/ko|제어부]], [[Parts/Structual & Aerodynamic/ko|구조물 및 비행체]], 그리고 [[Parts/Utility & Scientific/ko|유용한 것들 & 과학 장비]] 항목입니다.
 
 
=Units of measure=
 
*While units of mass and thrust are not specifically labeled in-game, a bit of logic can quickly determine that thrust is measured in [[w:Newton_(unit)#Common_use_of_kilonewtons_in_construction|kilonewtons (kN)]] and mass in [[w:Metric_tonne|metric tons (t)]]. For example, if measured in kilograms(kg), a "9 kg" [[Rockomax X200-16 Fuel Tank]] on [[Kerbin]], having a [[w:Surface_gravity|surface gravity]] of 9.81 m/s2, would be roughly the size of a 48 oz coffee tin and only hold about 1.5 L of fuel. If measured in metric tons, a 9 t Rockomax X200-16 Fuel Tank under the same gravity would be about 0.67 m tall and 2 m in diameter, easily capable of holding the advertised 1600 L of fuel. Only a rocket engine with a thrust around 100 kN could have any chance to lift a 9 t fuel tank.
 
 
*[[w:Thrust-to-weight_ratio|Thrust to weight ratio]] at sea level on Kerbin is calculated by the following equation, which applies only to liquid or solid fuel rocket engines, jet engines use a complicated formula on a vehicle to vehicle basis.
 
 
:<math>\frac{T}{W}=\frac{T\ \mathrm{kN}}{(m\ \mathrm{t})(g_{\rm 0})}</math>
 
 
where:
 
:<math>T</math> is the thrust is the thrust obtained from the engine, in [[w:newton (unit)|kilonewton]]s.
 
:<math>W</math> is the weight of the engine at sea level on [[Kerbin|Kerbin's]] surface.
 
:<math>m</math> is the mass of the engine in metric tons (t).
 
:<math>g_{\rm 0}</math> is the acceleration at sea level on [[Kerbin|Kerbin's]] surface, in m/s² (≈9.807 m/s²).
 
 
*Specific impulse at sea level on Kerbin is is calculated by the following equation. To reduce confusion, [[w:Specific_impulse|specific impulse]] is given in both velocity and time units.  Please see the discussion page for further reading on ways of expressing specific impulse.
 
 
:<math>\mathrm{I_{\rm sp}}= 1000 \cdot \frac{T\ \mathrm{kN}}{(\dot m)(g_{\rm 0})}</math>
 
 
where:
 
:<math>I_{\rm sp}</math> is the specific impulse measured in seconds.
 
:<math>T</math> is the thrust obtained from the engine, in [[w:newton (unit)|kilonewton]]s.
 
:<math>\dot m</math> is the [[w:mass flow rate|mass flow rate]] in kg/s, which is negative the time-rate of change of the vehicle's mass since propellant is being expelled. <math>\dot m = \frac{\mathrm{Total Mass Tons} - \mathrm{Dry Mass Tons} \cdot 1000}{Burn Time} = \mathrm{kg/s}</math>
 
:<math>g_{\rm 0}</math> is the acceleration at sea level on [[Kerbin|Kerbin's]] surface, in m/s² (≈9.807 m/s²).
 
 
= Pods =
 
{{Template:Stats Table Command Pods|{{Template:SUBPAGENAME}}}}
 
 
= Propulsion =
 
{{:Parts/Propulsion|{{Template:SUBPAGENAME}}}}
 
 
= Control =
 
{{:Parts/Command_&_Control|{{Template:SUBPAGENAME}}}}
 
 
= Structural =
 
{{:Parts/Structural_&_Aerodynamic|{{Template:SUBPAGENAME}}}}
 
 
= Aero =
 
 
= Utility =
 
{{:Parts/Utility_&_Scientific|{{Template:SUBPAGENAME}}}}
 
 
= Scientific =
 
{{:Parts/Crew|{{Template:SUBPAGENAME}}}}
 
 
{{Languages}}
 

Latest revision as of 07:08, 4 December 2012

Hi

EN ⇒ KO