- Electric shock;
- Electrocution;
- Electrical burns;
- Loss of muscle control;
- Fire and/or explosion; and.
- Damage to machineries.
What are the 4 hazards of electricity?
- Faulty or Damaged Wiring. …
- Overloading Circuits. …
- Use of Extension Cords. …
- Water Spill on Electrical Devices. …
- Improper Grounding. …
- Incorrectly placed Electrical Cords. …
- Loose Fitting Plugs.
What are the four main hazards of electricity?
- Shock: A response to electric current passing through the body.
- Arc Flash/Blast: Emits heat and intense light that causes burns.
- Fire: Occurs with faulty outlets, old wiring, cords, and switches.
- Explosions: When electricity ignites explosive material in the air.
What type of hazard is electricity?
The major hazards associated with electricity are
electrical shock, fire and arc flash
.
What are the 5 main electrical hazards?
- Working on live circuits. …
- Skipping lockout/tagout. …
- Forgetting PPE. …
- Improper grounding. …
- Damaged extension cords.
What are the two major hazards of electricity?
There are two known hazards of electricity—
thermal and shock
. A thermal hazard is one where excessive electric power causes undesired thermal effects, such as starting a fire in the wall of a house. A shock hazard occurs when electric current passes through a person.
What are the three main hazards of electricity?
- electric shock and burns from contact with live parts.
- injury from exposure to arcing, fire from faulty electrical equipment or installations.
- explosion caused by unsuitable electrical apparatus or static electricity igniting flammable vapours or dusts, for example in a spray paint booth.
Is trips a hazard or risk?
Slips, trips and falls are among the
most common causes of accidents and injury at work
. Visitors may also be at risk, both inside and outside premises under your control.
Is electric shock a hazard?
Electrical hazard or Electric Shock may be defined as “
Dangerous event or condition
due to direct or indirect electrical contact with energized conductor or equipment and from which a person may sustain electrical injury from shock, damage to workplace environment, damage to property or both.
What is the most common type of electrical hazard?
- Contact with live wires resulting in electric shock and burns,
- Fires due to faulty wiring,
- Exposed electrical parts,
- Ignition of fires or explosions due to electrical contact with potentially flammable or explosive materials,
- Inadequate wiring,
What type of hazard is poor posture?
An
ergonomic hazard
is any interaction with the made world that causes the user discomfort or strain. There are three primary types of ergonomic hazards: objects, environments, and systems that result in poor posture or unnatural, uncomfortable, or awkward movements.
How can you protect yourself from electrical hazards?
- Never touch a fallen power line. …
- Avoid contact with overhead power lines during cleanup and other activities.
- Do not drive through standing water if downed power lines are in the water.
How do you fix electrical hazards?
- Make it a habit to inspect tools, power cords, and electrical fittings for damage or wear and tear prior to use. …
- Check your cords often for fraying or damage and replace them if necessary.
What are 5 electrical safety tips?
- Always Cut the Power. …
- Have the Appropriate Fire Extinguisher on Hand. …
- Use More Than One Outlet. …
- Feel Your Outlets. …
- Child-Proof Your Outlets. …
- Investigate Flickering Lights. …
- Install Arc-Fault Circuit-Interrupters. …
- Don’t Use Extension Cords Long-Term.
What does electricity do to the human body?
Electric current is
able to create severe burns in the body
. The reason is hidden in the power dissipation across the body ́s electrical resistance. Shock can cause: cardiac arrest, burns to tissues and organs, muscle spasms, serious effects to the nervous system and other unexpected consequenses.
What is the safe voltage for a human body?
Limiting current flow in the human body to safe levels is entirely dependent on the resistance of the short-circuiting jumper. To achieve this safe current level the voltage across the human body must
not exceed 100 volts
.