to project 12 inches (305 mm) maximum into the opening provided that 36 inches (914 mm) minimum clear space is maintained between the water closet and the shower wall as illustrated in Figure...
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11B-809.10.6.1 Size
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SIGNALIZATION OF ROUNDABOUTS
The important features of a zebra crossing can be seen in Figure 2....
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ADA Veracity ADA Pro Application
Tapping on the blue fields will load the image related to that code, be it a Figure or a Table. Or create a site under "Add New Site"....
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Figure 404.2.4.2(b) Maneuvering Clearances at Doorways without Doors, Sliding Doors, Gates, and Folding Doors – Drawing from the U.S. Access Board
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Figure 404.2.4.2(d) Maneuvering Clearances at Doorways without Doors, Sliding Doors, Gates, and Folding Doors – Drawing from the U.S. Access Board
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Figure 404.2.4.1(e) Maneuvering Clearances at Manual Swinging Doors and Gates: Hinge Approach, Pull Side – Drawing from the U.S. Access Board
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Figure 404.2.4.1(f) Maneuvering Clearances at Manual Swinging Doors and Gates: Hinge Approach, Push Side – Drawing from the U.S. Access Board
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Figure 404.2.4.1(h) Maneuvering Clearances at Manual Swinging Doors and Gates: Latch Approach, Pull Side – Drawing from the U.S. Access Board
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Figure 404.2.4.1(j) Maneuvering Clearances at Manual Swinging Doors and Gates: Latch Approach, Push Side – Drawing from the U.S. Access Board
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Figure 404.2.4.1(d) Maneuvering Clearances at Manual Swinging Doors and Gates: Hinge Approach, Pull Side – Drawing from the U.S. Access Board
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Figure 404.2.4.2(c) Maneuvering Clearances at Doorways without Doors, Sliding Doors, Gates, and Folding Doors – Drawing from the U.S. Access Board
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Figure 404.2.4.1(b) Maneuvering Clearances at Manual Swinging Doors and Gates: Front Approach, Push Side – Drawing from the U.S. Access Board
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Roughness Calculation
If the crack depth was deep enough, the wheel would be suspended by the two sides of the surface and never hit the bottom as shown in Figure 122 {sic}....
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General Exceptions in FSTAG
Likewise, a person using a wheelchair might need assistance to make it up a steep grade (figure 124) or to get over an obstacle, but after that challenge, the individual can continue on...
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Road Roughness Analysis
The characteristics of the ‘quarter-car model are shown in Figure 10 (Sayers, 1998; Loizos, 2008) Figure 10: Quarter-car picture and variables (Loizos and Plati 2008) The strength...
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11B-604.8.1.2 Doors
Where Figure 11B-404.2.4.1 (f) and (j), specifically allow a 44” minimum maneuvering space perpendicular to doors in general in the closed position, a minimum of 48” must be provided in...
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Common Problems Arising in the Installation of Accessible Pedestrian Signals
This technical assistance bulletin highlights key issues that have figured in many of these reports; its countermeasures are consistent with usability for pedestrians who have vision loss...
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1. Abdomen depth (AD)
Table 1 and Figure 1 show the percentiles and maximum observed values for male and female wheelchair users....
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How to Measure Transfer Surface Height
Figure 10: Features of the countered shape of a medical examination table The design of the corner radii allows closest possible position for wheelchair transfers, minimizing potential...
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Telescopes and Periscopes
Figure 97 shows one way to configure an accessible telescope area....
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Trail Slopes
Slopes are often described as a ratio of vertical distance to horizontal distance, or rise to run (figure 130)....
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Resting Intervals on Trails
resting interval is at least 60 inches (1,525 millimeters) long and at least as wide as the widest segment of the trail tread leading into it, if the resting interval is within the trail (figure...
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3.3.2 Unoccupied Device Length
Our findings for mean, 80th percentile and 90th percentile values were somewhat larger than those of the comparison study (Figure 3‒2)....
