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Line 1: '''Engineering analysis''' involves the application of scientific/mathematical analytic principles and processes to reveal the properties and state of ~~the~~a system, device or mechanism under study. Engineering analysis is decompositional,: it proceeds by separating the [[Engineering design process\|engineering design]] into the [[Mechanism (engineering)\|mechanisms]] of operation or failure, ~~analysing~~analyzing or estimating each component of the operation or [[failure mechanism]] in isolation, and re-combining the components according to basic physical principles and [[Natural law\|natural laws]].<ref>Baecher, G.B., Pate, E.M., and de Neufville, R. (1979) “Risk of dam failure in benefit/cost analysis”, Water Resources Research, 16(3), 449-456.</ref><ref>Hartford, D.N.D. and Baecher, G.B. (2004) Risk and Uncertainty in Dam Safety. Thomas Telford</ref><ref>International Commission on Large Dams (ICOLD) (2003) Risk Assessment in Dam Safety Management. ICOLD, Paris</ref><ref>British Standards Institution (BSI) (1991)BC 5760 Part 5: Reliability of systems equipment and components - Guide to failure modes effects and criticality analysis (FMEA and FMECA).</ref> ==Applied/engineering mathematical analysis== Engineering analysis and applied analysis are synonym terms for [[mathematical analysis]]/[[calculus]] beyond basic [[differential equations]] such as applied for various advanced [[physics]] & [[engineering]] topics (including [[Fourier analysis]], [[Lagrangian mechanics\|Lagrangian]] & [[Hamiltonian mechanics]], [[Laplace transforms]], [[Sturm–Liouville theory]], and others) but still can involve [[mathematical proofs]]. ==Remote systems== Engineering analysis is the primary method for predicting and handling issues with [[Remote system\|remote systems]] such as [[Satellite\|satellites]] and [[Rover (space exploration)\|rovers]]. Engineering analysis for remote systems must be ongoing since the health and safety of the remote system can only be affected remotely (and because any failure could have fatal consequences). The capabilities of engineering analysis therefore must incorporate [[Trend analysis\|trending]] as well as analysis. Trending should be [[Proactivity\|proactive]], [[Predictive analytics\|predictive]], comprehensive and automated. Analysis must be reactive, investigative, targeted and hands-on. Together trending and analysis allow operators to both predict potential situations and identify [[Anomalous experiences\|anomalous]] events that threaten a remote system.<ref>{{Cite book \|last=Stolarski \|first=Tadeusz \|url=https://books.google.com/books?id=UVItRsjsFZwC&q=Engineering+analysis \|title=Engineering Analysis with ANSYS Software \|last2=Nakasone \|first2=Y. \|last3=Yoshimoto \|first3=S. \|date=2011-02-24 \|publisher=Elsevier \|isbn=978-0-08-046969-0 \|language=en}}</ref> ==See also== [[Calculus]] [[Differential equations]] [[Fourier analysis]] [[List of computer-aided engineering software]] [[Mathematical analysis]] [[Multivariable Calculus]] [[Pinch analysis]] [[Structural analysis]] ==References== Engineering classes suck and we went over this like a ba-gillion times and I still don't remember so obviously I came to wikipedia because I thought something would be here but apparently not. Want to know why this page has no useful information on it? I know what you're thinking: I, being the delinquent that I appear to be, erased it. I say nay-nay. It is in fact because NO ONE KNOWS WHAT THE HELL IT IS. I HAVE SPENT YEARS IN ENGINEERING CLASSES AND I STILL SOMEHOW ENDED UP HERE SO THANK YOU FOR NOTHING WIKIPEDIA. <references/> [[Category:Engineering concepts]] [[Category:Analysis]]