From Newsgroup: uk.rec.waterways

<div>I've tried bringing this layer into a new web map and playing with the configurations and saving the new web map, to no avail. I've also played with with the visualization settings on the layer itself to configure the popups, and that doesn't work either. I'm at a loss as to why I cannot seem to get rid of these separator commas and would appreciate any other ideas I could try.</div><div></div><div></div><div></div><div></div><div></div><div>pdf separator</div><div></div><div>Download Zip: https://t.co/NNaYgpJGof </div><div></div><div></div><div>I finally found a way to fix this issue. I downloaded a FGDB of the hosted feature service, brought the feature classes into ArcMap and symbolized the same as the feature service, and then re-published the feature service. Lo and behold the thousand separator commas have disappeared! I guess I'll have to use this workflow from now on to update this feature service.</div><div></div><div></div><div>The separator role indicates the element is a divider that separates and distinguishes sections of content or groups of menuitems. The implicit ARIA role the native thematic break element is separator.</div><div></div><div></div><div>A separator is a divider that separates and distinguishes sections of content or groups of menuitems. There are two types of separators: a static structure that provides a visible boundary, identical to the HTML element, and a focusable, moveable widget.</div><div></div><div></div><div>A non-focusable separator is a static structural element that can be used to help visually divide two groups of menu items in a menu or to provide a horizontal rule between two sections of a page. Thematic breaks that aren't focusable can still be perceivable by a screen reader user when using a reading cursor that does not depend on focus.</div><div></div><div></div><div>In the example, an image creates a visual separator between two blog posts. The author could have used a semantic thematic break element and styled it with CSS to make it blue (and not have to change the image when they change the blog's theme), or the author could have encompassed each post in the semantic element, or both.</div><div></div><div></div><div>If the separator is focusable, providing a visible boundary between two sections of content and enabling the user to change the relative size of the sections it separates by changing its position, the value of aria-valuenow must be set to a number reflecting the current position of the separator and the value must be updated when it changes. The aria-valuemin and aria-valuemax should also be included if they aren't set to the default values of 0 and 100, respectively.</div><div></div><div></div><div></div><div></div><div></div><div></div><div>There are some types of user interface components that, when represented in a platform accessibility API, can only contain text. Accessibility APIs do not have a way of representing semantic elements contained in a separator. To deal with this limitation, browsers, automatically apply role presentation to all descendant elements of any separator element as it is a role that does not support semantic children.</div><div></div><div></div><div>By default, the divider for separator roles is assumed to be horizontal. The value can be included and set to horizontal, undefined (the default for other roles unless otherwise specified), or vertical.</div><div></div><div></div><div>I don't understand what you mean by 'the net-name of both "shorted" nets is derived on user-defined property". I'm also not sure what you're talking about when you refer to a hierarchical net-separator?</div><div></div><div></div><div>My problem: I am in Germany, so my operating system is in German and uses a comma as decimal separator. However, I prefer to have my keyboard set to English, because then the Z is in the bottom left and Ctrl + Z can be operated with one hand. Unfortunately that also changes the comma on the number pad to a dot, which SketchUp doesnt recognize (since the OS is in German setting).</div><div></div><div></div><div>I am also facing this issue and when I use the test feature on the virtual column formula, it gives me what I would expect with my separator. But if I display this column in a detail view, it shows the default , separation. Seems like a bug.</div><div></div><div></div><div>The second approach is to change the file extension from CSV to TXT, this way, when you try to open the file in excel, the import dialog will be shown, where you can select the appropriate separator for the file.</div><div></div><div></div><div>The building blocks of a battery are the cathode and anode, and these two electrodes are isolated by a separator. The separator is moistened with electrolyte and forms a catalyst that promotes the movement of ions from cathode to anode on charge and in reverse on discharge. Ions are atoms that have lost or gained electrons and have become electrically charged. Although ions pass freely between the electrodes, the separator is an isolator with no electrical conductivity.</div><div></div><div></div><div>The small amount of current that may pass through the separator is self-discharge and this is present in all batteries to varying degrees. Self-discharge eventually depletes the charge of a battery during prolonged storage. Figure 1 illustrates the building block of a lithium-ion cell with the separator and ion flow between the electrodes.</div><div></div><div></div><div></div><div></div><div>Early batteries were flooded, including lead acid and nickel-cadmium. With the development of the sealed nickel-cadmium in 1947 and the maintenance-free lead acid in the 1970s, the electrolyte is absorbed into a porous separator that is compressed against the electrodes to achieve chemical reaction. The tightly wound or stacked separator/electrode arrangement forms a solid mechanical unit that offers similar performance to the flooded type but is smaller and can be installed in any orientation without leakage. The gases created during charge are absorbed and there is no water loss if venting can be prevented.</div><div></div><div></div><div>Early separators were made of rubber, glass fiber mat, cellulose and polyethylene plastic. Wood was the original choice but it deteriorated in the electrolyte. Nickel-based batteries use separators of porous polyolefin films, nylon or cellophane. The absorbed glass mat (AGM) in the sealed lead acid version uses a glass fiber mat as a separator that is soaked in sulfuric acid.</div><div></div><div></div><div>Commercially available Li-ion cells use polyolefin as a separator. This material has excellent mechanical properties, good chemical stability and is low-cost. A polyolefin is a class of polymer that is produced from olefin by polymerizing olefin ethylene. Ethylene comes from a petrochemical source; polyolefin is made from polyethylene, polypropylene or laminates of both materials.</div><div></div><div></div><div>On excessive heat, a shut-down occurs by closing the pores of the Li-ion separator through a melting process. The polyethylene (PE) separator melts when the core reaches 130C (266F). This stops the transport of ions, effectively shutting the cell down. Without this provision, heat in the failing cell could rise to the thermal runaway threshold and vent with flame. This internal safety fuse also helps pass the stringent UN Transportation Testing for Lithium Batteriesthat includes altitude simulation, as well as thermal, vibration, shock, external short circuit, impact, overcharge and forced discharge tests. (See BU-304a: Safety Concerns with Li-ion.)</div><div></div><div></div><div>Most batteries for mobile phones and tablets have a single polyethylene separator. Since ca. 2000, larger industrial batteries deploy a trilayered separator that provides enhanced fuse protection on thermal extremes and on multi-cell configurations. Figure 2 illustrates the PP/PE/PP trilayer separator consisting of polyethylene in the middle that is sandwiched by outer polypropylene (PP) layers. While the inner PE layer shuts down at 130C by closing the pores, the outer PP layers stay solid and do not melt until reaching 155C (311F).</div><div></div><div></div><div>In ca. 2008, further improvements were made by adding a ceramic-coated separator. Ceramic particles do not melt and this addition provides a further safety level. Ceramic coating is also used on lithium cobalt oxide (LCO) cells that charge up to 4.40V/cell instead of the traditional 4.20V/cell. The ceramic coating works in tandem with the PE and PP layers and is placed next to the positive side to prevent electrical contact.</div><div></div><div> df19127ead</div>
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