2 Creating a simple rocket design
4 <p>This tour shows how to create a simple rocket design from scratch.
9 <p>When you choose to create a new design, you are presented with a blank
10 design and the <em>Rocket configuration</em> dialog is displayed.
11 Here you can enter general information on the rocket design, such as
12 the design name, designer, comments and revision information.
14 <p>You can later open this dialog by double-clicking on the root
15 component in the component tree.
20 <p>Next, add a <em>Nose cone</em> to the design by clicking the
21 corresponding component addition button. This opens the nose cone
25 [dialog-1-nosecone.jpg]
27 <p>The configuration dialog contains settings for the nose cone shape,
28 dimensions and material. Set the nose cone length to 10 cm,
29 base diameter to 2.5 cm and material to Polystyrene (plastic).
31 <p>To use inches, either click the unit to change it, or change the
32 default units in <a href="FIXME">Preferences</a>.
37 <p>The design window displays the nose cone. Next, add a <em>Body
38 tube</em> to the design.
41 [dialog-2-bodytube.jpg]
43 <p>Change the body tube length to 25 cm. The <em>Automatic</em>
44 option for the outer diameter is ticked by default, in which case the
45 diameter is automatically the same as that of the nose cone.
50 <p>Next, add a <em>Trapezoidal fin set</em> to the rocket. The body
51 tube must be selected in order to add the component.
56 <p>The trapezoidal fin set has numerous dimension parameters. The
57 most important are the root and tip chord (length next to the body
58 tube and tip), height and sweep.
60 <p>The default values are okay for the example design.
63 [main-4-innertube.jpg]
65 <p>Next, add an <em>Inner tube</em> as a motor mount. Select the body
66 tube, and then click the component addition button.
69 [dialog-4-innertube.jpg]
71 <p>The default dimensions are suitable for Estes A-C motors. To have
72 the motor mount overhang a bit, change the position parameter to
73 <em>Bottom of parent component</em> plus 0.5 cm.
76 [main-5-centeringring.jpg]
78 <p>To add <em>Centering rings</em> to keep the mount in place, select
79 the body tube and click the centering ring button.
81 <p>(If you have the inner tube selected when clicking, the centering
82 ring will be added inside the inner tube. Use <b>Edit</b> →
83 <b>Undo</b> to undo the latest action.)
86 [dialog-5-centeringring.jpg]
88 <p>The centering ring automatically selects the appropriate outer and
89 inner diameter when the <em>Automatic</em> checkboxes are selected.
91 <p>Move the centering ring to the front of the engine mount by setting
92 the position parameter to <em>Bottom of parent component</em> plus
95 <p>Next add another centering ring at the aft end with position
99 [main-6-parachute.jpg]
101 <p>Next add a <em>Parachute</em> to the body tube.
104 [dialog-6-parachute.jpg]
106 <p>The <em>canopy diameter</em> and <em>drag coefficient</em>
107 determine how much the parachute slows down the rocket during descent.
108 The <em>material</em> and <em>shroud lines</em> affect the total
109 mass. The <em>packed length</em>, <em>diameter</em> and
110 <em>position</em> affect the packed size and location of the
113 <p>The <em>Deploys at</em> propery can be used to affect when the
114 parachute deploys. The <em>First ejection charge of this stage</em>
115 option will deploy the parachute when the ejection charge is fired, as
116 is typical in small model rockets.
121 <p>Now the functional aspects of the rocket design are complete.
123 <p>For completeness you can still attach a <em>Shock cord</em> and a
124 <em>Mass component</em> to the body tube for wadding, and an
125 <em>Engine block</em> to the inner tube for holding the motor in
131 <p>Now the rocket design is complete.
133 <p>You can now continue to
134 <a href="defining_motors/defining_motors">defining motors</a> to your
projects / debian / openrocket / blob