azimuthal seismic observations - significado y definición. Qué es azimuthal seismic observations
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Qué (quién) es azimuthal seismic observations - definición

STUDY OF THE RESPONSE OF BUILDINGS/STRUCTURES TO EARTHQUAKES
Seismic design; Seismic performance; Seismic performance analysis

Seismic intensity scales         
  • Isoseismal map for the [[1968 Illinois earthquake]], showing the extent of different levels of shaking. The irregularity of areas is due to ground conditions and the underlying geology.
SCALE USED TO MEASURE EARTHQUAKE INTENSITY
Seismic intensity scale; Seismic intensity
Seismic intensity scales categorize the intensity or severity of ground shaking (quaking) at a given location, such as resulting from an earthquake. They are distinguished from seismic magnitude scales, which measure the magnitude or overall strength of an earthquake, which may, or perhaps may not, cause perceptible shaking.
Observations (Avedon book)         
BOOK BY RICHARD AVEDON
Observations (book)
Observations is a collaborative coffee table book with photography by Richard Avedon, commentary by Truman Capote and design by Alexey Brodovitch. It features a slipcase with color, all-capitalized lettering; the book itself is further housed in a clear acetate/glassine slip cover and is printed with the same bold design as the slipcase in black-and-white.
Seismic gap         
SEGMENT OF AN ACTIVE FAULT KNOWN TO PRODUCE SIGNIFICANT EARTHQUAKES THAT HAS NOT SLIPPED IN AN UNUSUALLY LONG TIME
Seismic Gap; Seismic gap hypothesis
A seismic gap is a segment of an active fault known to produce significant earthquakes that has not slipped in an unusually long time, compared with other segments along the same structure. There is a hypothesis or theory that states that over long periods of time, the displacement on any segment must be equal to that experienced by all the other parts of the fault.

Wikipedia

Seismic analysis

Seismic analysis is a subset of structural analysis and is the calculation of the response of a building (or nonbuilding) structure to earthquakes. It is part of the process of structural design, earthquake engineering or structural assessment and retrofit (see structural engineering) in regions where earthquakes are prevalent.

As seen in the figure, a building has the potential to 'wave' back and forth during an earthquake (or even a severe wind storm). This is called the 'fundamental mode', and is the lowest frequency of building response. Most buildings, however, have higher modes of response, which are uniquely activated during earthquakes. The figure just shows the second mode, but there are higher 'shimmy' (abnormal vibration) modes. Nevertheless, the first and second modes tend to cause the most damage in most cases.

The earliest provisions for seismic resistance were the requirement to design for a lateral force equal to a proportion of the building weight (applied at each floor level). This approach was adopted in the appendix of the 1927 Uniform Building Code (UBC), which was used on the west coast of the United States. It later became clear that the dynamic properties of the structure affected the loads generated during an earthquake. In the Los Angeles County Building Code of 1943 a provision to vary the load based on the number of floor levels was adopted (based on research carried out at Caltech in collaboration with Stanford University and the U.S. Coast and Geodetic Survey, which started in 1937). The concept of "response spectra" was developed in the 1930s, but it wasn't until 1952 that a joint committee of the San Francisco Section of the ASCE and the Structural Engineers Association of Northern California (SEAONC) proposed using the building period (the inverse of the frequency) to determine lateral forces.

The University of California, Berkeley was an early base for computer-based seismic analysis of structures, led by Professor Ray Clough (who coined the term finite element. Students included Ed Wilson, who went on to write the program SAP in 1970, an early "finite element analysis" program.

Earthquake engineering has developed a lot since the early days, and some of the more complex designs now use special earthquake protective elements either just in the foundation (base isolation) or distributed throughout the structure. Analyzing these types of structures requires specialized explicit finite element computer code, which divides time into very small slices and models the actual physics, much like common video games often have "physics engines". Very large and complex buildings can be modeled in this way (such as the Osaka International Convention Center).

Structural analysis methods can be divided into the following five categories.