Difference between revisions of "Tutorial:Learning basics of rocket building"

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[[File:Cabin-Offset.jpg|center|thumb|The adjustment of the chutes]]
 
[[File:Cabin-Offset.jpg|center|thumb|The adjustment of the chutes]]
[[File:Assemblymodes_icons.png|left|link=]]
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[[File:Assemblymodes_icons.png|left|link=]] If we reckon that, those parachutes stand out imprudently, their position can refined using the '''''Offset''''' (second from left) among the gizmos. Just click on the symmetry indicator or press {{Key press|2}}. In this mode the parts cannot be placed freely, but their position can be tweaked without breaking the connections. Holding the {{Key press|Shift}} pressed makes this translation with smoother steps. Ok, it is a tutorial, so if you are satisfied with the original position, pretend some dissatisfaction, and try that function the editor gizmos!
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{{clear}}
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[[File:Cabin-Tower.jpg|center|thumb|Constructing the tower]]
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If the parachutes are positioned on the most ideal place possible, it is the high time to start to construct the escape tower. Switch the gizmos to '''''Place''''' state (clicking on the first icon from left, or press {{Key press|1}}). The state of symmetry mode doesn't affect anything when we are building on the symmetry axis. If we need a docking port for the later [[fuel transfer]]s, then a [[Clamp-O-Tron Jr./hu|Clamp-O-Tron Jr.]] is the proper part for us, else a [[TR-2V Stack Decoupler]] can be a perfect base too. So put one of them on the top of the cabin. Stack four [[Cubic Octagonal Strut]] for creating a platform for the boosters placing enough distant from the cabin preventing any damage.
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[[File:Cabin-Rocket.jpg|center|thumb|The boosters placed in angle]]
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As the tower is ready, the boosters have to placed on it. Due to sizes of the available boosters, the [[Sepratron I]] is the only candidate to imagine. To place them in right way the role of the tower must be understood. At first it has to accelerate together with the cabin like the rest of the rocket, and during the acceleration it diverts from the course of the rest of the rocket, and it lifts the cabin to safe altitude to open the chutes.

Revision as of 16:44, 6 April 2015

This tutorial gives - by some step by step building exercise - the basic knowledge of rocket-building and some kind of craft used as a payload, and teaches the necessary usage of the editor - except the career-dependent details.


For doing this tutorial start a game in sandbox mode, and enter into the Vehicle Assembly Building in the KSC.

The first step of the rocket building is defining the purpose of the rocket, because this purpose determines the terminal stages act as payloads, which size and weight and destination determines the requirement of interplanetary and middle stages, and finally the total weight of these stages hedges in the parameters of the possible launch vehicles. As a result of this, the most practical way of constructing the rocket is starting with the final stage(s), and build it from up to down.

The controlling part of the rocket - and the functions of the editor

The proper command module

The command module practically placed on the final stage, because such a way it can control the craft from the launch till the end during the mission. For the manned missions cabins holding kerbonaut(s) are needed. For a mission needs a single kerbonaut a Command Pod Mk1 is enough, but if we want to make a mission with full crew (pilot, engineer and scientist), an Mk1-2 Command Pod is necessary. The presence of an experienced pilot can be compensated with installation of a proper probe core. For the manned missions the return of the crew has to be ensured, so if there is no a separate vehicle for bringing our heroic kerbonauts back to Kerbin, this stage has to be functional as a returning unit. For launching a radically new rocket not tested yet, avoiding the loss of kerbonauts a Launch Escape System (LES) has to be installed on the cabin too.

If the rocket's role is delivering a remote craft, that craft's probe core can control the whole rocket. If the payload would has no a probe core (refueling unit), then a it has to be built in the final stage of the basic construction.

The crafting of cabins' stage - and what the editor gizmos for

Well, let see the building of a cabin equipped with a LES. There is a proper sized Launch Escape System as a special part for the big cabin fitting on 2.5m rockets, but we have to compose a such device for Mk1 cabin. Now, lets build this module, just for learning.

Part icon.png

We have to start with placing the command module. Switch the mode control - if it is not in this state - to Parts mode, and change the bar's page to Pods (first from uspide), and select the Mk1-2 Command Pod, and place it somewhere in the workshop. As it has been done the icons of the editor gizmos appear. The sorting preference of the parts can be changed by clicking on the labels of Name, Mass, Cost and Size situated on the top of the parts' bar.

The Launch escape system has to be placed on the top of the cabin, where the parachute used to, such as the Mk16 Parachute with its 0.625m radial size fits perfectly on Mk1 cabin, or Mk16-XL Parachute and Mk25 Parachute (1.25m) fits on the Mk1-2. In this case, an group of Mk2-R Radial-Mount Parachutes must placed on the surface of the cabin symmetrically. The situation is similar when docking ports is installed on the top for availability of the docking later. Due to the launch escape system means unnecessary extra weight during the spaceflight, it worth to decouple after the initial sequence of ascending - so it has to be installed on a decoupler, separator, or a kind of the mentioned docking ports.

For the radially symmetric placement switch the symmetry indicator to radial symmetry position, if it is in lateral symmetry mode. Switching is possible between these modes by pressing R, the number of the symmetrically placed parts can be increased by clicking on the indicator or pressing X, an decreased by right-clicking on the indicator or pressing Shift+X. Lets place two Mk2-R Radial-Mount Parachute (Utility group in the parts' bar) in radial symmetry on the cabin.

The adjustment of the chutes
Assemblymodes icons.png
If we reckon that, those parachutes stand out imprudently, their position can refined using the Offset (second from left) among the gizmos. Just click on the symmetry indicator or press 2. In this mode the parts cannot be placed freely, but their position can be tweaked without breaking the connections. Holding the Shift pressed makes this translation with smoother steps. Ok, it is a tutorial, so if you are satisfied with the original position, pretend some dissatisfaction, and try that function the editor gizmos!
Constructing the tower

If the parachutes are positioned on the most ideal place possible, it is the high time to start to construct the escape tower. Switch the gizmos to Place state (clicking on the first icon from left, or press 1). The state of symmetry mode doesn't affect anything when we are building on the symmetry axis. If we need a docking port for the later fuel transfers, then a Clamp-O-Tron Jr. is the proper part for us, else a TR-2V Stack Decoupler can be a perfect base too. So put one of them on the top of the cabin. Stack four Cubic Octagonal Strut for creating a platform for the boosters placing enough distant from the cabin preventing any damage.

The boosters placed in angle

As the tower is ready, the boosters have to placed on it. Due to sizes of the available boosters, the Sepratron I is the only candidate to imagine. To place them in right way the role of the tower must be understood. At first it has to accelerate together with the cabin like the rest of the rocket, and during the acceleration it diverts from the course of the rest of the rocket, and it lifts the cabin to safe altitude to open the chutes.