![]() Practical use of 14 C is best illustrated with some examples. Ambers, in Encyclopedia of Analytical Science (Second Edition), 2005 Case Studies Figure 8.7 illustrates for the flow under the sheet that the temperature θ changes relatively slowly for relatively small values of Pr, whilst θ changes more rapidly and decays to its asymptotic value of zero very quickly for the case of flow above the sheet. Then, it can be observed from Figure 8.8 that the pressure function h decreases everywhere as Pr decreases and this leads to some difficulties in obtaining the numerical solutions of Equations (8.28)–(8.30) for Pr < 1. In contrast, no reverse flow region was found for any value of Pr investigated and this can be observed from Figure 8.6(b). As Pr decreases further, both the magnitude and the size of the region of the reverse flow becomes larger. there is a region of reversed flow in the vicinity of the sheet. It is clearly seen from Figure 8.6(a) that for Pr very large that f' is positive everywhere, but as the value of Pr decreases, f' becomes negative near the sheet, i.e. Further, Figure 8.6 shows the variation of f' as a function of 77 for the flow under the sheet, Figure 8.6(a), and above the sheet, Figure 8.6(b), for various values of Pr. It can be seen that the agreement is very good. Figure 8.5 shows the variation of f' and θ for the flow above the sheet as obtained using the perturbation solution (8.36) for Pr = 50, 100, 500, 1000, 500 together with the full numerical solution of Equations (8.28)–(8.30) for Pr − 50. It would be interesting to see this design if it ever happens on a AORUS Radeon card.Typical numerical results for the fluid velocity, f', the temperature, θ, and the pressure, h, are presented in Figures 8.5 to 8.8 when Pr varies from Pr = 0.45 to 1000 for both the cases of flow above and under the sheet. When all else goes wrong, this could be used as a very expensive paperweight or door stopper. The orientation seems to be flipped as well. This is not a real product and is a render, but it seems to be a late April fools joke based on the caption as well as the inclusion of the VGI port. The connectivity features 3 HDMI ports and the outdated VGI port. The render appears to have two large heatsinks connected via copper heat pipes, one attached to the board and the other is on the bottom side. Although it is a good attempt, the orientation looks to solve neither problem as the fans will not be shown in horizontal mounting and it will look extremely awkward in vertical mounting. The card looks like someone left a heavyweight on the left side causing the card to angle downwards. They have literally gone halfway in between horizontal and vertical mounting with an angled shroud. Vertical mounting is more aesthetically pleasing, but some cases don't have enough room so the fans end up having little airflow as the card gets placed too close to the side panel. Horizontally mounted graphics cards show the usually plain backplate on the top and the more decorated front side with fans is facing downward. Horizontal mounting is the tried and trusted way to mount a graphics card, but it isn't the most aesthetically pleasing if you aren't using a custom backplate. Vertically mounting a graphics card tends to be more aesthetically pleasing as it displays the fans as well as the front side of the card. Gigabyte Has Found The Solution To The Horizontal vs. Gigabyte may have come up with a potential solution in a concept design of an AORUS card with an angled shroud design posted to the AORUS Spain Twitter. Most of the issues stem from vertical mounting choking out the airflow to the GPU since the intake of the card is too close to the side panel. In some cases, the orientation of the graphics card has caused issues.
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