On the parade ground the net may be similar to that shown in Figure 3.

In the extreme and oversimplified example suggested in Figure 3, the organization is more easily understood and more predictable in behavior.

The assumptions upon which the example shown in Figure 3 is based are: ( A ) One man can direct about six subordinates if the subordinates are chosen carefully so that they do not need too much personal coaching, indoctrinating, etc..

Of types of message listed in Table 1, commands and statements are the only ones sent through the vertical network shown in Figure 3.

Questions and, particularly, exclamations are usually channeled along informal, horizontal lines not indicated in Figure 3 and seldom are carried beyond the nearest neighbor.

Furthermore, the network in Figure 3 is only the basic net through which other networks pertaining to logistics and the like are interlaced.

Figure 3 shows the data on a silicone fluid, labeled 12,500 cps which gave a high positive normal pressure.

The data for boy 34 appear in Figure 3, and for girl 2 in Figure 4.

For example, arrow 17 in Figure 3 portrays the proximal radial epiphysis for boy 34, whereas the same epiphysis for girl 2 is portrayed by arrow 18 in Figure 4.

As shown in Figure 3, the protoplasm of other fibers was pale, granular, or flocculated and invaded by phagocytes.

Figure 3: Structure of a vacuum tube diode.

Figure 3: Measuring cost performance without a PV baseline. Figure 4: The most common form of EVM graphic.

Figure 3.

By 1918, two French mathematicians, Pierre Fatou and Gaston Julia, though working independently, arrived essentially simultaneously at results describing what are now seen as fractal behaviour associated with mapping complex numbers and iterative functions and leading to further ideas about attractors and repellors ( i. e., points that attract or repel other points ), which have become very important in the study of fractals ( see Figure 3 and Figure 4 ).

Different researchers have postulated that without the aid of modern computer graphics, early investigators were limited to what they could depict in manual drawings, so lacked the means to visualize the beauty and appreciate some of the implications of many of the patterns they had discovered ( the Julia set, for instance, could only be visualized through a few iterations as very simple drawings hardly resembling the image in Figure 3 ).

Figure 2 and Figure 3 show variations on Carnot cycle efficiency.

Figure 3 indicates how the efficiency changes with an increase in the heat rejection temperature for a constant turbine inlet temperature.

* The vertical motion of the jack is then stopped by the jackrail, which is covered with soft felt to muffle the impact. Figure 3.

The Skeletal Age curve in the lower portion of Figure 2 shows that slowing may have occurred for her during the prepubescent period.

The photograph, Figure 1 of the completed frieze, shows how, having been separated from his fellows in useless isolation for eighty years, he has now been given a hand, and by juxtaposition ( and the permission of the Committee ), given a new job, to represent the witnesses of the first flight at Kitty Hawk in 1903.

Figure 2, above, shows the aging properties of urethane foams as determined by the percent of change in tensile strength during exposure to ultra-violet light.

Figure 7-3 shows a platform system with the gyro vectors arranged as described above.

Figure ( b ) shows the same distributed system in more detail: each computer has its own local memory, and information can be exchanged only by passing messages from one node to another by using the available communication links.

Figure ( c ) shows a parallel system in which each processor has a direct access to a shared memory.

Figure 1 shows the cumulative budget ( cost ) for this project as a function of time ( the blue line, labeled PV ).

Figure 2 shows the EV curve ( in green ) along with the PV curve from Figure 1.

Figure 4 shows all three curves together – which is a typical EVM line chart.

Figure 1 also shows the λ-line.

Figure 2 shows the differential force of gravity on a spherical body ( body 1 ) exerted by another body ( body 2 ).

Figure A shows a normal vein with a working valve and normal blood flow.

Figure B shows a varicose vein with a deformed valve, abnormal blood flow, and thin, stretched walls.

Figure 2 shows a Faraday rotator with an input polarizer, and an output analyser.

Figure 3 shows the propagation of light through a polarization independent isolator.

Figure 1 shows the trends which density and temperature follow through the chromosphere.

Figure 2 shows an active electronic implementation of a first-order high-pass filter using an operational amplifier.

Figure 2 shows the typical form of the sharp fluorescent spectral lines obtained in the energy-dispersive method ( see Moseley's law ).

One such famous variation, entitled Figure with Meat ( 1954 ), shows the pope between two halves of a bisected cow.

Figure 3 shows the first fold, and figure 4 the result of the first nine folds, which form a spiral.

Figure 3 shows the sequence of events illustrating the obduction model following continental collision.

Fractals are typically self-similar patterns, where self-similar means they are " the same from near as from far " Fractals may be exactly the same at every scale, or as illustrated in Figure 1, they may be nearly the same at different scales.

::* Quasi self-similarity: approximates the same pattern at different scales ; may contain small copies of the entire fractal in distorted and degenerate forms ; e. g., the Mandelbrot set's satellites are approximations of the entire set, but not exact copies, as shown in Figure 1

A line slightly longer than the note head is drawn parallel to the staff, above or below, spaced at the same distance as the lines within the staff ( see Figure 1 ).

The second Figure 3 does the same for the phase.

Figure 1: The amplitude of a single frequency wave as a function of time t ( red ) and a copy of the same wave delayed by τ ( green ).

Figure 2: The amplitude of a wave whose phase drifts significantly in time τ < sub > c </ sub > as a function of time t ( red ) and a copy of the same wave delayed by 2τ < sub > c </ sub >( green ).

Figure 3: The amplitude of a wavepacket whose amplitude changes significantly in time τ < sub > c </ sub > ( red ) and a copy of the same wave delayed by 2τ < sub > c </ sub >( green ) plotted as a function of time t. At any particular time the red and green waves are uncorrelated ; one oscillates while the other is constant and so there will be no interference at this delay.

Thus, the triggering scheme is the same as an SCR and the equivalent circuit is outlined in Figure 4.

So, in the end, the structure which is crossed by the major portion of the current is the same as Quadrant I operation (" 3 " in Figure 5 ).

Now to increase the labour keeping the production the same the organization has to decrease capital. In Figure 1 B is the point where capital decreases to K2, while labour increases to L2.

Suppose a particle moves at a uniform rate along a line from A to B ( Figure 2 ) in a given time ( say, one second ), while in the same time, the line AB moves uniformly from its position at AB to a position at DC, remaining parallel to its original orientation throughout.

As the level of consumption remains the same, the income – consumption curve for perfect complements is the diagonal line passing through the origin as shown in Figure 5 on the left.

A MOSFET version of Figure 3 is shown in Figure 4 where MOSFETs M < sub > 3 </ sub > and M < sub > 4 </ sub > operate in Ohmic mode to play the same role as emitter resistors R < sub > E </ sub > in Figure 3, and MOSFETs M < sub > 1 </ sub > and M < sub > 2 </ sub > operate in active mode in the same roles as mirror transistors Q < sub > 1 </ sub > and Q < sub > 2 </ sub > in Figure 3.