![]() This definition was adopted, with minor changes, by the General Assembly of the United Nations (UNGA) in 2017. It defines a hazard as âa dangerous phenomenon, substance, human activity or condition that may cause loss of life, injury or other health impacts, property damage, loss of livelihoods and services, social and economic disruption, or environmental damageâ. Historically the term hazard has been commonly associated with sudden natural phenomena or with a specific material that could be hazardous, a more complete definition can be found in the 2009 document on the terminology in disaster reduction compiled by the United Nations Office for Disaster Risk Reduction (UN DRR). The most simple definition of hazard one can find in a dictionary is âsomething dangerous and likely to cause damageâ. As first, letâs define together hazards and natural hazards according to recent literature. Thus, we start this series of posts called Natural Hazards 101, trying to provide a little guidance in this complex world. However, we have never really stopped for a moment to define a hazard, a natural hazard and much of the terminology in the field that can sometimes be evasive and not so straightforward to understand. We often talk about different natural hazards, how researchers investigate them and solutions to mitigate their effects on society, infrastructures and the environment. The equality between exponential function based on e and Bondi K-factor suggested hypotheses that both expressions required each other and exponential function was associated with the space-time continuum.Photo credit, from top left to bottom right: Pamela Trisolino (via Imaggeo), Michiel Baatsen (via Imaggeo), Stefan Doerr (via Imaggeo), Dimitri Defrance (via Imaggeo), Katja Bigge (via Imaggeo), Babak Hejrani (via Imaggeo), Elias Sch (via Pixabay) and Dan Killam (via Imaggeo). The mathematical application of v â â to Bondi K-factor led to i, where i was interpreted as something other than v due to the definition of v as 0â¤vĪB - This study investigated relationships between some mathematical constants and some natural phenomena. The equality between exponential function based on e and Bondi K-factor suggested hypotheses that both expressions required each other and exponential function was associated with the space-time continuum. N2 - This study investigated relationships between some mathematical constants and some natural phenomena. T1 - Napier's constant, imaginary unit, circular constant and some natural phenomena It was suggested that e, i and Ï were the basso continuo being played in some natural phenomena. Some natural phenomena including metallic number and muon's velocity were related to Ï. Applying v â â to Bondi K-factor to the power of i gave 'i to the power of i, a many-valued function that suggested numeral approximations to some physical constants. Euler's identity was related with Bondi K-factor to the power of i where v=c(exp(2Ï)-1)/ (exp(2Ï)+1) - 0.996c (- muon's velocity). This suggested a hypothesis that the role of i, though the phenomenon related to i looked like the phenomenon related to the infinite velocity, was to prohibit the state of c ⤠v < â by taking the form of wave. ![]() The mathematical application of v â â to Bondi K-factor led to i, where i was interpreted as something other than v due to the definition of v as 0â¤vstudy investigated relationships between some mathematical constants and some natural phenomena.
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