Tables
#5
© Dr. Ing. Jan Pająk

Table G2
<table width="100%" border="1" cellpadding="4">
 <tr>
   <td colspan="4" bgcolor="#66CCFF"><span class="stil">Table G2.</span></td>
 </tr>
 <tr>
   <td width="9%"><span class="stil">Number of vehicles</span></td>
   <td width="27%"><span class="stil">Kind &amp; appearance of configuration of the vehicles</span></td>
   <td width="31%"><span class="stil">What must be measured in this configuration</span></td>
   <td width="33%"><span class="stil">Use the equat. for the value of &quot;K&quot;</span></td>
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 <tr>
   <td><div align="center"><span class="stil">1</span></div></td>
   <td><span class="stil">Individual vehicle, e.g. as this one from Figures G18, G1 a)</span></td>
   <td><p><span class="stil">Measure:<br>
     - Height &quot;H&quot; of this vehicle,<br>
     - Diameter &quot;D&quot; of this vehicle
   </span></p></td>
   <td><p><span class="stil">Calculate &quot;K&quot; from equation (G10):</span></p>
   <p><span class="stil">K = D/H</span></p></td>
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 <tr>
   <td><div align="center"><span class="stil">2</span></div></td>
   <td><span class="stil">&quot;Spherical complex&quot;, e.g. as the one from Figure G1 b)</span></td>
   <td><span class="stil">Measure:<br>
     - Height &quot;ΣH&quot; of entire complex<br>
     - Diameter &quot;D&quot; of any vehicle</span></td>
   <td><p><span class="stil">Calculate &quot;K&quot; from equation (G17):</span></p>
   <p><span class="stil">K = 2*D/ (ΣH)</span></p></td>
 </tr>
 <tr>
   <td><div align="center"><span class="stil">m</span></div></td>
   <td><span class="stil">&quot;Stacked cigar shaped complex&quot; e.g. as this one from Figures G1c), G6 (#1), G7 a)</span></td>
   <td><span class="stil">Determine:<br>
     - Number &quot;m&quot; of vehicles,<br>
     - Height &quot;ΣH&quot; of entire cigar,<br>
     - Diameter &quot;D&quot; of any vehicle</span></td>
   <td><p><span class="stil">Calculate &quot;K&quot; from equation (G20):</span></p>
   <p><span class="stil">K = (m- (m-1)*(sqrt (2) - 1))* (D/ (ΣH))</span></p></td>
 </tr>
 <tr>
   <td><div align="center"><span class="stil">m</span></div></td>
   <td><span class="stil">&quot;Double-ended flying cigar&quot; e.g. as the one from Figure G8 (1)</span></td>
   <td><span class="stil">Determine:<br>
- Number &quot;m&quot; of vehicles,<br>
- Height &quot;ΣH&quot; of entire cigar,<br>
- Diameter &quot;D&quot; of any vehicle</span></td>
   <td><p><span class="stil">Calculate &quot;K&quot; from equation (G21):</span></p>
   <p><span class="stil">K = (m- (m-1)*(sqrt (2) - 1))* (D/ (ΣH))</span></p></td>
 </tr>
 <tr>
   <td colspan="4" class="stil"><br>
     The determination of the "K" factor from the correlation between the value of this "K" factor and the "D/H" ratio for a single Magnocraft and for three homogenic configurations of the coupled Magnocraft ( namely for the spherical complex, for a stacked cigar, and for a double-ended cigar). In turn the knowledge of "K" allows us to determine precisely the type of individual vehicles arranged into a given configuration. After we find out this type it is possible to read all technical data for a given vehicle from Table G1.
Notice that equations for both cigars provided in this table are valid only if during the measurements the central axis of these cigars remains perpendicular to the line of our sight. In remaining cases a deviation angle "α" from the position that is perpendicular to the line of our sight must be determined, and then the value of "ΣH" should be corrected trigonometrically by the factor which depends on this deviation angle "α".
It should be noticed, that in order to determine the "K" factor for any of the configurations of Magnocraft presented in the above table, it is enough to determine the height "ΣH" and the outer diameter "D" of this configuration from a photograph, from a radar picture, or from a visual observation of this configuration. Then these two data need to be used in the equation provided for a given configuration in the last column of this table. In case of a stacked cigar, or a double-ended cigar, it is required to additionally determine the number "m" of vehicles that compose a given configuration, and conditionally also an angle of deviation "α" by which the central axis of this configuration slants from the position that is perpendicular to our line of sight. (This angle "α" allows us to correct trigonometrically the apparent - means the measured by us, value of the height "ΣH" to a value that is the real value of this height "ΣH".
For a practical verifying of equations from the table above, I would propose to determine the type of vehicles that create the stacked cigar shown in part (d) of photograph from Figure P10.</td>
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Tables - von tina - 27.11.2015, 18:49
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