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Wreck on rocks off Orchard Beach, New York, The Bronx during the winter of 2007.
Hazards are sometimes classified into three modes:[1]
- Dormant - The situation has the potential to be hazardous, but no people, property, or environment is currently affected by this. For instance, a hillside may be unstable, with the potential for a landslide, but there is nothing below or on the hillside that could be affected.
- Armed - People, property, or environment are in potential harm's way.
- Active - A harmful incident involving the hazard has actually occurred. Often this is referred to not as an "active hazard" but as an accident, emergency, incident, or disaster.
Hazards are generally of four types, physical hazards, chemical hazards, biological hazards and psychological hazards, radiation hazards.
Classifying hazardsBy its nature, a hazard involves something that could potentially be harmful to a person's life, health, property, or the environment. One key concept in identifying a hazard is the presence of stored energy that, when released, can cause damage. Stored energy can occur in many forms: chemical, mechanical, thermal, radioactive, electrical, etc. Another class of hazard does not involve release of stored energy, rather it involves the presence of hazardous situations. Examples include confined or limited egress spaces, oxygen-depleted atmospheres, awkward positions, repetitive motions, low-hanging or protruding objects, etc.
There are several methods of classifying a hazard, but most systems use some variation on the factors of "likelihood" of the hazard turning into an incident and the "seriousness" of the incident if it were to occur. (This discussion moved away from hazard to a discussion of risk.)
A common method is to score both likelihood and seriousness on a numerical scale (with the most likely and most serious scoring highest) and multiplying one by the other in order to reach a comparative score.
Risk = Hazard xVulnerability(-)Capacity
This score can then be used to identify which hazards may need to be mitigated. A low score on likelihood of occurrence may mean that the hazard is dormant, whereas a high score would indicate that it may be an "active" hazard.
An important component of "seriousness if incident occurred" is "serious to whom?" Different populations may be affected differently by accidents. For example, an explosion will have widely differing effects on different populations depending on the distance from the explosion. These effects can range from death from overpressure or shrapnel to inhalation of noxious gases (for people downwind) to being exposed to a loud noise.
Causes of hazardsThere are many causes, but they can broadly be classified as below. See the linked articles for comprehensive lists of each type of hazard.
- Natural hazards include anything that is caused by a natural process, and can include obvious hazards such as volcanoes to smaller scale hazards such as loose rocks on a hillside.
- Man-made hazards are created by humans, whether long-term (such as global warming) or immediate (like the hazards present at a construction site). These include activity related hazards (such as flying) where cessation of the activity will negate the risk.
- Deadly force or retribution it is that hazard involving any protective and responsive-ready threat of harm or punishment that becomes active in the event of a breach of security, or violation of a boundary or barrier (physical, legal, moral) intended to prevent unauthorized or unsafe access or entry or exposure to a situation, to something, or to someone.
What else can I help you with?
IS introduction to hazards mitigation?
Section of the Stafford Act
What is common hazards-prevention and mitigation?
Common hazard prevention and mitigation refer to the minimizing effect. It is avoiding something hazardous by properly planning and response.
What are the 4 A's of disaster mitigation?
-Avoid building -Accept the hazards -Anticipate disaster -Alter your behavior
Which term refers to the process of reducing or eliminating risks so fewer people become victims of natural hazards?
mitigation A+
What is hazard mappings and how it is an effective mitigation tool for cyclone?
Hazard mapping is the process of identifying and documenting potential hazards in a specific area, such as cyclone-prone regions. By mapping out these hazards, including cyclone-prone areas, evacuation routes, and vulnerable infrastructure, authorities can better plan and implement effective mitigation strategies. Hazard mapping helps to raise awareness, provide early warnings, and guide decision-making to reduce the impact of cyclones on communities and infrastructure.
What are the examples for geomorphology hazards?
Examples of geomorphology hazards include landslides, rockfalls, volcanic eruptions, earthquakes, and coastal erosion. These hazards can pose risks to human lives, infrastructure, and the environment, leading to property damage and potential loss of life. Understanding these hazards is important for effective risk management and mitigation strategies.
What are the causes and effect of physical hazards?
Physical hazards are caused by natural events like earthquakes or human activities like industrial accidents. These hazards can lead to injuries, property damage, and environmental harm. Mitigation strategies include implementing safety protocols, building resilient infrastructure, and incorporating risk assessments.
The concept Comprehensive Emergency Management is the basis for the all hazards approach to emergency management It consists of what four phases?
Mitigation (including prevention), Preparedness, Response, and Recovery.
What type of scientists study volcanic hazards?
Volcanologists study volcanic hazards, focusing on understanding the processes that lead to eruptions, monitoring volcanic activity, and assessing the risks posed to nearby populations. They work to predict eruption behaviors and develop mitigation measures to reduce the impact of volcanic hazards.
Do you know where I could find a radon mitigation to help my service?
The Environmental Protection Agency has a lot of information on radon mitigation. They have a checklist of what to look for in a service and they also have suggestions for your specific local area.
Common hazards - prevention and mitigation?
Common hazards such as fires, slips, trips, and falls can be prevented by implementing safety protocols, providing training to employees, and maintaining a clean and organized work environment. Mitigation measures include installing fire alarms and extinguishers, using non-slip mats, and fixing any damaged flooring or hazardous conditions promptly. Regular inspections and risk assessments can also help identify potential hazards and address them before they cause harm.
Which preparation and mission planning element is considered when anticipating hazards?
Risk assessment and mitigation strategies are key elements considered when anticipating hazards in preparation and mission planning. Identifying potential hazards, evaluating the likelihood and impact of each hazard, and developing plans to minimize or avoid these risks are essential to ensure the safety and success of the mission.
