Max for Live MIDI Devices: Audio Devices: 1658: Max for Live Audio Devices: MIDI Instruments: 521: Max for Live MIDI Instrument Devices: LFO/Modulation: 330: LFO Devices for modulating Ableton Live parameters: Sequencers: 798: Devices including sequencers: Drum Machine: 319: Devices for Beats: Sample Glitch: 436: Boring beats? Live Broadcasting. Content Utility. BitTorrent Remote. BitTorrent Token BitTorrent Speed BitTorrent File System. The most trusted torrent clients for Mac in the world. Bi t Torrent Web. The easy-to-use online torrent downloader and player for Mac. Having trouble installing on Mac. Torrent mac max for live tv. Search for torrents and play them right in your browser. The fastest, easiest, most enjoyable way to get torrents, period. Download µTorrent Web. Having trouble installing on Mac? Find the solution here. ΜTorrent Stable (1.8.7 build 45548) For Mac (4.07 MB) English (US) - May 20, 2020. Max for Live is a platform to build your own instruments and effects, tools for live performance and visuals, and much more. You can open up any of Live’s Max devices, see how they’re built, and change them to meet your needs. You can build your own from scratch using the same components.
The Colorado Rockfall Simulation Program (CRSP) was developed to provide a statistical analysis of probable rockfall behavior at any given site and to be used as a tool to study the behavior of rockfalls, to determine the need for rockfall mitigation, and to aid in the design of rockfall mitigation. The basic theory behind CRSP is summarized, and the results of recent program modifications and calibration are discussed. CRSP uses numerical input values assigned to slope and rock properties to model rockfall behavior. The model applies equations of gravitational acceleration and conservation of energy to describe the motion of the rock. Empirically derived functions relating velocity, friction, and material properties are used to model the dynamic interaction of the rock and slope. The statistical variation among rockfalls is modeled by randomly varying the angle at which a rock impacts the slope within limits set by rock size and slope irregularities. The program provides estimates of probable velocity and bounce height at various locations on a slope. Experimental verification and calibration of CRSP was conducted by analyzing videotapes of rocks traveling down a slope. A comparison of rock velocity and bounce height obtained from the tapes with CRSP prediction indicates reasonable agreement. Also, an evalution of the sensitivity of input parameters indicates that slope angle and surface roughness are the most important parameters on steep slopes. Design graphs are developed based on CRSP simulations by using surface roughness and slope angle to estimate rock velocity and bounce height on uniform slopes.
![Rockfall Rockfall](/uploads/1/2/6/5/126542290/175691690.jpg)
- Record URL:
- http://onlinepubs.trb.org/Onlinepubs/trr/1990/1288/1288-014.pdf
- Record URL:
- https://scholar.google.com/scholar_lookup?title=ROCKFALL+HAZARD+ANALYSIS+USING+THE+COLORADO+ROCKFALL+SIMULATION+PROGRAM&author=T.+Pfeiffer&author=J.+Higgins&publication_year=1990
- Availability:
- Find a library where document is available. Order URL: http://worldcat.org/isbn/0309050642
- Supplemental Notes:
- This paper appears in Transportation Research Record No. 1288, Geotechnical Engineering 1990. Distribution, posting, or copying of this PDF is strictly prohibited without written permission of the Transportation Research Board of the National Academy of Sciences. Unless otherwise indicated, all materials in this PDF are copyrighted by the National Academy of Sciences. Copyright © National Academy of Sciences. All rights reserved
- Authors:
- Pfeiffer, Timothy J
- Higgins, Jerry D
- Publication Date: 1990
Instructional Games
- Rockfall Simulation Program. In Transportation Research Record 1288, TRB, National. Research Council. Washington D.C. Rockfall hazard analysis using the Colorado rockfall simulation.
- Aug 11, 2010 Rockfall barriers or attenuators may be placed on the slope, with corresponding statistics, histograms, images, maps, and tables included in an automatically generated report.
- Rockfall can occur at any time from almost any location along a slope. The purpose of implementing rockfall mitigation is to reduce the risk of rockfall at a specific location. Colorado Rockfall Simulation Program (CRSP).
- May 08, 2016 The Colorado Rockfall Simulation Program (CRSP) was developed in 1987 to estimate the velocity, energy, and bounce heights of rockfall, which in turn forms a basis. 2Publication Number: FHWA- HRT- 1.
Colorado Rockfall Simulation Program
Providing the popular Colorado Rockfall Simulation Program computer software Providing comment and guidance for proposed rockfall mitigation Providing educational resources so that the people of Colorado our many visitors might better understand rockfall and the risk associated with living in and traveling through mountainous terrain.
ORDER TOOLSPLEASEORDER BY ME J1. Tick picker v.1 in binary.com word.
Media Info
- Features: Figures; Photos; References; Tables;
- Pagination: p. 117-126
- Monograph Title: Geotechnical engineering 1990 - soils, geology and foundations
- Serial:
- Issue Number: 1288
- Publisher: Transportation Research Board
- ISSN: 0361-1981
Subject/Index Terms
- TRT Terms: Acceleration (Mechanics); Angularity; Calibration; Design; Dynamics; Elasticity (Mechanics); Energy conservation; Equations; Forecasting; Friction; Gravitation; Hazards; Impact; Properties of materials; Rock mechanics; Rockfalls; Roughness; Simulation; Slopes; Statistical analysis; Traffic mitigation; Velocity; Videotapes
- Uncontrolled Terms: Bounce; Impact angle; Mitigation; Verification
- Old TRIS Terms: Angles, geometry; Gravitational acceleration
- Subject Areas: Data and Information Technology; Design; Energy; Environment; Geotechnology; Highways; Materials; I43: Rock Mechanics;
Simulation
Filing Info
- Accession Number: 00607757
- Record Type: Publication
- ISBN: 0309050642
- Files: TRIS, TRB, ATRI
- Created Date: Apr 30 1991 12:00AM