EAWS Common Core 103:General Safety
Terms
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- Define the purpose of the Naval Aviation Safety Program.
- To preserve human and material resources.
- Explain the safety responsibilities of the Commanding Officer.
- Requires all to be instructed and drilled in all precautions and procedures. If none issued CO will issue or augment.
- Explain the safety responsibilities of the Aviation Safety Officer.
- Advisor to the CO on all aviation safety matters. Assists in est. and mang. of Command Aviation Safety Program.
- Explain the safety responsibilities of the
- Advisor to the CO on all ground safety matters. Assists in est. and mang. of Command Ground Safety Program.
- Explain the safety responsibilities of the Department Head.
- Coordinates Dept's safety program with Unit Safety officer & supervises Division Safety Officer. Ensures personnel are instructed and drilled.
- Explain the safety responsibilities of the Division Officer.
- Ensures all personnel comply with all safety instructions. Prepares and submits additional inst's if necessary.
- Explain the safety responsibilities of the Safety Petty Officer.
- Ensures all personnel are instructed in all safety matters. Central POC for all safety matters.
- Explain the safety responsibilities of All Hands.
- All will familiarize themselves w/ reg's & inst's applicable to them. Comply w/ CSP and OPNAVIST 3750.6.
- Explain the functions of the Safety Council/Enlisted Safety Committee.
- Sets goals, manage assets, review safety recommendations. Ground, Aviation & Aeromedical are standing members. Reps from other activities.
- Discuss how human error contributes to aviation mishaps.
- Is part of nearly every mishap. Involves physical and mental factors.
- Discuss how Maintenance and support factors contribute to aviation mishaps.
- Improper maintenance, priority assignments or QA. Can be caused by way made, assembled or installed.
- Discuss how Administative and supervisory factors contribute to aviation mishaps.
- Regulation enforcement. Lack of supervision or failure to require PQS. Lack of formal and informal training.
- Discuss how material failures and malfunctions contribute to aviation mishaps.
- Faulty design, defective manufacture, or repair. Most of these may actually be maintenance factor or human error.
- Discuss how environmental factors contribute to aviation mishaps.
- Acts of God. Extreme exposure to heat, cold, vibrations, noise, illumination, radiation, or aatmospheric contaminants.
- Define Class A mishap.
- Total cost of damage is $1,000,000 or more, or injury/illness results in fatality or permanent disability.
- Define Class B mishap.
- Total cost of damage is $200,000 to $1,000,000 ro injury/illness results in permanent partial disability or 3 or more personnel hospitalized inpatient.
- Define Class C mishap.
- Total cost of damage is $20,000to $1,000,000. Loss of time beyond day/shift incident occured or non-fatal illness/disease causing loss of time from work.
- State the objective of the Aviation Gas-Free Engineering Program.
- Ensure a safe environment is maintained when working on areonautical equip fuel systems. NA 01-1a-35. QAR CDQAR w/ AVGFE course.Insufficient demand is less than 3 GFE req's in 6 months.
- Explain the hazards associated with Radio Frequency (RF) energy.
- RF energy can generate elec currents/voltage causing elec shock, burns, biological dameag and cataracts. Unwanted activation of EED can cause sparks that ignite flammable materials.
- State the purpose of Laser Safety Hazard Control Program.
- Design a series of safety factor to use when using lasers. Laser System Safety Officer, est. reg., SOPs, eyewear, signs, training, etc.
- State the Purpose of a safety stand down.
- To devote time to safety training.
- Discuss the concept of Operational Risk Management (ORM).
- Systematic, decision-making process used to identify & manage hazards that endanger naval resources. Increase operational readiness & potential for success.
- Explain "Identify Hazards" as it applies to ORM.
- Outline/chart major steps. Conduct hazard analysis: list hazards of steps & causes for them.
- Explain "Assess Hazards" as it applies to ORM.
- Determine degree of risk of each hazard in terms of probability & severity. Matrix is helpful.
- Explain "Make Risk Decisions" as it applies to ORM.
- Take each risk and select controls. Decide if benefit outweighs risk.
- Explain "Implement Controls" as it applies to ORM.
- Measures used to eliminate hazards or reduce risk. Engineering, administrative, & PPE.
- Explain "Supervise" as it applies to ORM.
- Conduct follow-up eval of controls ensuring they remain in place w/ desired effect. Monitor for changes. Take action when necessary.