What precautions should you take before working with electrical equipment?
Avoid contact with all energized electrical circuits.Avoid contact with all energized electrical circuits. Be sure to unplug the power source of all electrical equipment before working on it. Always wear proper non conductive clothing insulated gloves, non conductive protective apparel and shoes with insulated soles.
What are the other safety precautions that you apply when working?
Here are some tips to help make your workplace safe.Understand the risks. Reduce workplace stress. Take regular breaks. Avoid stooping or twisting. Use mechanical aids whenever possible. Protect your back. Wear protective equipment to suit the task. Stay sober.
What can be done to reduce the risk of accidents with electrical equipment?
What work practices help protect you against electrical hazards?deenergizing electric equipment before inspection or repair,keeping electric tools properly maintained,exercising caution when working near energized lines, and.using appropriate protective equipment.
What are 5 electrical safety tips?
Electrical safety for kidsNever put fingers or other objects in an outlet.Keep metal objects out of toasters.Never use anything with a cord or plug around water.Never pull a plug out by its cord.Stay away from substations and power lines.Don’t climb on power poles.Never fly kites near power lines.Stay away from broken or fallen power lines.
What is the most important rule of electrical safety?
What is the most important rule of electrical safety? Never work on an energized circuit except if the power can not be disconnected. A piece of equipment can help us to think before acting. Do not depend on circuit breakers, fuses which may misguide wrongly.
Do and don’ts electrical safety?
Obey warnings to stay away from electrical circuits and locked-out equipment. Leave work on energized equipment to qualified workers. Keep machines and other electrical equipment clean and well lubricated. Use extension cords only when authorized—and of the right capacity.
What are the five most important facts about electricity?
Electricity facts and figuresElectricity travels at the speed of light, about 300,000 kilometres per second.A spark of static electricity can measure up to 3,000 volts.The average taser emits 50,000 volts.A bolt of lightning can measure up to three million (3,000,000) volts (and lasts less than one second).
What are safety precautions needed in using electricity?
5 electrical safety tips you should know for your homeReplace or repair damaged power cords. Exposed wiring is a danger that cannot go overlooked, the NFPA wrote. Don’t overload your outlets. Avoid extension cords as much as possible. Keep electrical equipment or outlets away from water. Protect small children from hazards.
How do you handle electricity?
15 Safety Precautions When Working With ElectricityAvoid water at all times when working with electricity. Never use equipment with frayed cords, damaged insulation or broken plugs.If you are working on any receptacle at your home then always turn off the mains. Always use insulated tools while working.
What is needed for electricity to flow?
To produce an electric current, three things are needed: a supply of electric charges (electrons) which are free to flow, some form of push to move the charges through the circuit and a pathway to carry the charges. The flow of electricity can be likened to a flow of water through a pipe.
What are the dangers of electricity?
The main hazards of working with electricity are:electric shock and burns from contact with live parts.injury from exposure to arcing, fire from faulty electrical equipment or installations.
How do you handle electrical appliances safely?
Don’t operate electrical appliances in or near water. Immediately turn off and disconnect an appliance that sparks or stalls. Always disconnect appliances before cleaning, servicing or repairing them. Avoid accidental starts by making sure the switch is off before plugging in the cord.
Do not use appliances if they are?
Do not use the appliance if it is damaged or not operating perfectly. Immediately remove the plug from the power socket. Contact the Spinn Club for examination, repair or adjustment. A damaged appliance can cause electric shocks, burns and fire.
Why do we need to keep water away from electrical appliances?
Water is an excellent conductor. Electricity would travel through the water and through you to the ground. This is why it’s so important to keep all electrical appliances away from water, and to make sure your hands are dry and you are not standing in water when you touch anything electrical.
How do you identify electrical hazards?
Some hazards include:Loose or improper connections, such as electrical outlets or switches.Frayed appliance or extension cords.Pinched or pierced wire insulation, which could occur from, for example, a chair leg sitting on an extension cord.Cracked wire insulation caused by heat, age, corrosion or bending.
What are examples of electrical hazards?
What are Examples of Electrical Hazards?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 are the two main electrical hazards a qualified electrical worker looks out for?
Current regulations and industry standards are now in place to protect electrical workers from the hazards of shock, electrocution, arc flash, and arc blast.
What type of hazard is electrical?
The main hazards with electricity are: contact with live parts causing shock and burns. faults which could cause fires; fire or explosion where electricity could be the source of ignition in a potentially flammable or explosive atmosphere, e.g. in a spray paint booth.
Which of the following is the most common type of electrical hazard?
What are the four main hazards of electricity?
There are four main types of injuries: electrocution (fatal), electric shock, burns, and falls. These injuries can happen in various ways: Direct contact with exposed energized conductors or circuit parts.