Trust makes all the difference in a transaction. It helps them answer that nagging question without ever having to call you or step foot in your store. Google calls this the Zero Moment of Truth. There is no comparison. The image is a professional bed set. Interested buyers have three ways to double-check everything about this company before even looking at the available products. So far, you just want people to know your name. You want to get them into your store.
You figure out which products are in the most demand. Then, after you have their attention and trust, you can sell them anything. The trick is to figure how to get their attention. Or more specifically, which products get the most eyeballs. Those arrows are annoying, I know. Now, you have a much better idea of how to bring in eyeballs. You know which items to feature.
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The next step is to split test the creative. Treat this like any other ad creative, because the elements are largely the same. Instead, just get started with split testing classic creative elements like the headline you use, the featured image, and even the call to action in the description. Two stats illuminate the difference between top-selling companies and everyone else. That means you need a follow-up strategy. You can use marketing automation to scale a lot of the time-consuming, back-and-forth that takes place.
The tricky part is that timing also plays a crucial role in sales. Check out this next stat:. Or a family to spend time with. Or a life to live. Thankfully, you can automate just about the entire thing with templates or chatbots. For example, the standard reply can be a simple copy and paste away:. Otherwise, you can also use bots to help tailor responses depending on what someone says. You can already do this with SMS :.
How, specifically, should you follow up? Facebook Messenger lets you test this out, experiment on the fly, and even gives you a solid roadmap that can be used offline afterward. The entire goal of Facebook Marketplace is to sell products. You need to sell dozens of products. Maybe even hundreds to make a dent.
How, exactly, do you do that? Especially if you have expensive items? You first get people to commit for free or a single dollar. The barrier to entry is incredibly low. There is almost zero risk on behalf of the buyer. Then, once you have them, you slowly but surely work them up to your more expensive stuff.
Or you sell video game consoles. These might range a few hundred bucks a pop. Selling one directly over a Marketplace posting might be tough. However, you can start with a tripwire to build out a list of potential prospects. You get people to message you. They can start building that recognition and trust. A simple Marketplace sale becomes the perfect conduit to a long-lasting, profitable customer relationship. Businesses are now able to use it to get free exposure to potential customers around them. They can use it to increase awareness, build trust, and even test the market to figure out the best way to position what they have to offer.
Then, they can use it to fine-tune follow-up sequences to produce more consistent results. All of these activities can help open up a pipeline of new business that leads people directly to your doorstep. By that point, the sale should be easy. Employee handbooks should be reviewed by an attorney for consistency and compliance with current federal and state or provincial laws. As an example, many US states have specific laws that go above and beyond federal laws. Because of this, a New Mexico employee handbook should not be used in California. In the US, California is the state with the highest number of regulations that go above and beyond federal law.
Companies operating there usually have special content for California employees. If five or more people are employed, it is a requirement of the Health and Safety at Work Act to have a written statement of the company's health and safety policy. From Wikipedia, the free encyclopedia. This article needs additional citations for verification. Please help improve this article by adding citations to reliable sources. Unsourced material may be challenged and removed.
Retrieved ERE Media. Atlantic Council for International Cooperation. Blue-collar Green-collar Grey-collar Pink-collar White-collar. Is metallic or conductive dust prevented from entering or accumulating on or around electrical enclosures or equipment? Are all oil and gas-fired devices equipped with flame failure controls to prevent flow of fuel if pilots or main burners are not working?
Are the minimum number of toilets and washing facilities provided and maintained in a clean and sanitary fashion? Have all confined spaces been evaluated for compliance with 29 CFR Permit required confined spaces. Are holes in the floor, sidewalk, or other walking surface repaired properly, covered, or otherwise made safe? Is there safe clearance for walking in aisles where motorized or mechanical handling equipment is operating? Are materials or equipment stored in such a way that sharp projections will not interfere with the walkway?
Are aisles or walkways that pass near moving or operating machinery, welding operations, or similar operations arranged so employees will not be subjected to potential hazards? Are standard guardrails provided wherever aisle or walkway surfaces are elevated more than 30 inches Are floor openings guarded by a cover, a guardrail, or equivalent on all sides except at stairways or ladder entrances?
Are toeboards installed around the edges of permanent floor openings where persons may pass below the opening? Is the glass in windows, doors, glass walls, etc. Are grates or similar type covers over floor openings such as floor drains designed to allow unimpeded foot traffic or rolling equipment? Are unused portions of service pits and pits not in use either covered or protected by guardrails or equivalent?
Are manhole covers, trench covers and similar covers, and their supports designed to carry a truck rear axle load of at least 20, pounds 9, kilograms when located in roadways and subject to vehicle traffic? Are floor or wall openings in fire-resistant construction provided with doors or covers compatible with the fire rating of the structure and provided with a self-closing feature when appropriate?
Do stairs have landing platforms not less than 30 inches Are stairs of hollow-pan type treads and landings filled to the top edge of the pan with solid material? Are stairway handrails located between 30 inches Do stairway handrails have at least 3 inches 7. Where doors or gates open directly on a stairway, is a platform provided so the swing of the door does not reduce the width of the platform to less than 21 inches Are stairway handrails capable of withstanding a load of pounds Where stairs or stairways exit directly into any area where vehicles may be operated, are adequate barriers and warnings provided to prevent employees from stepping into the path of traffic?
Do stairway landings have a dimension measured in the direction of travel at least equal to the width of the stairway? Are surfaces that are elevated more than 30 inches Are all elevated surfaces beneath which people or machinery could be exposed to falling objects provided with standard 4-inch Is material on elevated surfaces piled, stacked, or racked in a manner to prevent it from tipping, falling, collapsing, rolling, or spreading? Are dock boards or bridge plates used when transferring materials between docks and trucks or railcars?
Are exit signs labeled with the word "EXIT" in lettering at least 5 inches Are at least two means of egress provided from elevated platforms, pits, or rooms where the absence of a second exit would increase the risk of injury from hot, poisonous, corrosive, suffocating, flammable, or explosive substances? Is the number of exits from each floor of a building and the number of exits from the building itself appropriate for the building occupancy load?
Are exit stairways that are required to be separated from other parts of a building enclosed by at least 2-hour fire-resistive construction in buildings more than four stories in height, and not less than 1-hour fire-resistive construction elsewhere? Where ramps are used as part of required exiting from a building, is the ramp slope limited to 1 foot 0. Where exiting will be through frameless glass doors, glass exit doors, storm doors, etc. Are doors that are required to serve as exits designed and constructed so that the path of exit travel is obvious and direct?
Are windows that could be mistaken for exit doors made inaccessible by means of barriers or railings? Are exit doors able to be opened from the direction of exit travel without the use of a key or any special knowledge or effort when the building is occupied? Where panic hardware is installed on a required exit door, will it allow the door to open by applying a force of 15 pounds 6.
Are doors on cold storage rooms provided with an inside release mechanism that will release the latch and open the door even if the door is padlocked or otherwise locked on the outside? Where exit doors open directly onto any street, alley, or other area where vehicles may be operated, are adequate barriers and warnings provided to prevent employees from stepping into the path of traffic? Are doors that swing in both directions and are located between rooms where there is frequent traffic provided with viewing panels in each door?
Are all ladders maintained in good condition, joints between steps and side rails tight, all hardware and fittings securely attached, and moveable parts operating freely without binding or undue play? Are non-slip safety feet provided on each metal or rung ladder, and are ladder rungs and steps free of grease and oil? Are employees prohibited from placing a ladder in front of doors opening toward the ladder unless the door is blocked open, locked, or guarded?
Are employees prohibited from placing ladders on boxes, barrels, or other unstable bases to obtain additional height? Are employees prohibited from using ladders that are broken, have missing steps, rungs, or cleats, broken side rails, or other faulty equipment? When portable rung ladders are used to gain access to elevated platforms, roofs, etc. Are employees required to secure the base of a portable rung or cleat type ladder to prevent slipping, or otherwise lash or hold it in place?
Are employees prohibited from using ladders as guys, braces, skids, gin poles, or for other than their intended purposes? Are employees instructed to only adjust extension ladders while standing at a base not while standing on the ladder or from a position above the ladder? Are all tools and equipment both company and employee-owned used at the workplace in good condition? Are hand tools, such as chisels, punches, etc. Are appropriate safety glasses, face shields, etc. Are power tools used with proper shields, guards, or attachments, as recommended by the manufacturer?
Are circular saw guards checked to ensure that they are not wedged up, leaving the lower portion of the blade unguarded? Are all cord-connected, electrically operated tools and equipment effectively grounded or of the approved double insulated type? Are effective guards in place over belts, pulleys, chains and sprockets on equipment such as concrete mixers, air compressors, etc.? Is hoisting equipment available and used for lifting heavy objects, and are hoist ratings and characteristics appropriate for the task?
Are ground-fault circuit interrupters provided on all temporary electrical 15 and 20 ampere circuits used during periods of construction? Are pneumatic and hydraulic hoses on powder-operated tools checked regularly for deterioration or damage? Is the maximum revolutions per minute rpm rating of each abrasive wheel compatible with the rpm rating of the grinder motor? Are fixed or permanently mounted grinders connected to their electrical supply system with metallic conduit or other permanent wiring method?
Are dust collectors and powered exhausts provided on grinders used in operations that produce large amounts of dust? Are splash guards mounted on grinders that use coolant to prevent the coolant from reaching employees? Are employees who operate powder-actuated tools trained in their use and required to carry a valid operator's card? Is a sign at least 7 inches Do powder-actuated tool operators have and use appropriate PPE such as hard hats, safety goggles, safety shoes and ear protectors? Is there adequate supervision to ensure that employees are following safe machine operating procedures?
Is sufficient clearance provided around and between machines to allow for safe operations, set up and servicing, material handling and waste removal? Are foot-operated switches guarded or arranged to prevent accidental actuation by personnel or falling objects? Are manually operated valves and switches controlling the operation of equipment and machines clearly identified and readily accessible?
Are all pulleys and belts within 7 feet 2. Are splash guards mounted on machines that use coolant to prevent the coolant from reaching employees? Are methods provided to protect the operator and other employees in the machine area from hazards created at the point of operation, ingoing nip points, rotating parts, flying chips and sparks? If special hand tools are used for placing and removing material, do they protect the operator's hands? Are revolving drums, barrels and containers guarded by an enclosure that is interlocked with the drive mechanism so that revolution cannot occur unless the guard enclosure is in place?
Are provisions made to prevent machines from automatically starting when power is restored after a power failure or shutdown? Are machines constructed so as to be free from excessive vibration when the largest size tool is mounted and run at full speed? If machinery is cleaned with compressed air, is air pressure controlled and PPE or other safeguards utilized to protect operators and other workers from eye and body injury? Are radial arm saws so arranged that the cutting head will gently return to the back of the table when released? Is all machinery or equipment capable of movement required to be de-energized or disengaged and blocked or locked out during cleaning, servicing, adjusting, or setting up operations?
If the power disconnect for equipment does not also disconnect the electrical control circuit, are the appropriate electrical enclosures identified and is a means provided to ensure that the control circuit can also be disconnected and locked out? Does the lockout procedure require that stored energy mechanical, hydraulic, air, etc. Are employees required to keep personal control of their key s while they have safety locks in use? Is it required that employees check the safety of the lockout by attempting a startup after making sure no one is exposed?
Are employees instructed to always push the control circuit stop button prior to re-energizing the main power switch? Is there a means provided to identify any or all employees who are working on locked-out equipment by their locks or accompanying tags? Are a sufficient number of accident prevention signs or tags and safety padlocks provided for any reasonably foreseeable repair emergency? When machine operations, configuration, or size require an operator to leave the control station and part of the machine could move if accidentally activated, is the part required to be separately locked out or blocked?
If equipment or lines cannot be shut down, locked out and tagged, is a safe job procedure established and rigidly followed? Are only authorized and trained personnel permitted to use welding, cutting, or brazing equipment? Are compressed gas cylinders regularly examined for obvious signs of defects, deep rusting, or leakage? Is care used in handling and storage of cylinders, safety valves, relief valves, etc. Are precautions taken to prevent the mixture of air or oxygen with flammable gases, except at a burner or in a standard torch? Are only approved apparatuses torches, regulators, pressure reducing valves, acetylene generators, manifolds used?
Are cylinders, cylinder valves, couplings, regulators, hoses and apparatuses kept free of oily or greasy substances? Are regulators removed and valve-protection caps put in place before moving cylinders, unless they are secured on special trucks? Do cylinders without fixed wheels have keys, handles, or non-adjustable wrenches on stem valves when in service?
Is red used to identify the acetylene and other fuel-gas hose, green for the oxygen hose and black for inert gas and air hoses? Are pressure-reducing regulators used only for the gas and pressures for which they are intended? Is open circuit no-load voltage of arc welding and cutting machines as low as possible and not in excess of the recommended limits? Is grounding of the machine frame and safety ground connections of portable machines checked periodically?
Are work and electrode lead cables frequently inspected for wear and damage, and replaced when needed? When the object to be welded cannot be moved and fire hazards cannot be removed, are shields used to confine heat, sparks and slag? Are fire watchers assigned when welding or cutting is performed in locations where a serious fire might develop? Are combustible floors kept wet, covered with damp sand, or protected by fire-resistant shields? Are precautions taken to protect combustibles on the other side of metal walls when welding is underway? Are used drums, barrels, tanks and other containers thoroughly cleaned of substances that could explode, ignite, or produce toxic vapors before hot work begins?
Are employees exposed to the hazards created by welding, cutting, or brazing operations protected with PPE and clothing? When working in confined places, are environmental monitoring tests done and means provided for quick removal of welders in case of an emergency? Are compressor air intakes installed and equipped so as to ensure that only clean, uncontaminated air enters the compressor? Before a compressor's pressure system is repaired, is the pressure bled off and the system locked out?
Is the belt drive system totally enclosed to provide protection for the front, back, top and sides? When compressed air is used to clean clothing, are employees trained to reduce the pressure to less than 10 pounds per square inch psi? Are safety chains or other suitable locking devices used at couplings of high-pressure hose lines where a connection failure would create a hazard?
Before compressed air is used to empty containers of liquid, is the safe working pressure of the container checked? When compressed air is used with abrasive blast cleaning equipment, is the operating valve a type that must be held open manually? When compressed air is used to inflate auto tires, are a clip-on chuck and an inline regulator preset to 40 psi required?
Are employees prohibited from using compressed air to clean up or move combustible dust if such action could cause the dust to be suspended in the air and cause a fire or explosion hazard? Is every receiver equipped with a pressure gauge and one or more automatic, spring-loaded safety valves? Is the total relieving capacity of the safety valve able to prevent pressure in the receiver from exceeding the maximum allowable working pressure of the receiver by more than 10 percent?
Is every air receiver provided with a drain pipe and valve at the lowest point for the removal of accumulated oil and water? Are all safety valves tested at regular intervals to determine whether they are in good operating condition? Is the inlet of air receivers and piping systems kept free of accumulated oil and carbonaceous materials? Are cylinders with a water weight capacity over 30 pounds Are compressed gas cylinders stored in areas protected from external heat sources such as flame impingement, intense radiant heat, electric arcs, or high-temperature lines?
Are cylinders located or stored in areas where they will not be damaged by passing or falling objects or subject to tampering by unauthorized persons? Are cylinders stored or transported in a manner to prevent them from creating a hazard by tipping, falling, or rolling? Are cylinders containing liquefied fuel gas stored or transported in a position so that the safety relief device is always in direct contact with the vapor space in the cylinder? Are valve protectors always placed on cylinders when the cylinders are not in use or connected for use? Are all valves closed off before a cylinder is moved, when the cylinder is empty and at the completion of each job?
Are low-pressure fuel gas cylinders checked periodically for corrosion, general distortion, cracks, or any other defect that might indicate a weakness or render them unfit for service? Does the periodic check of low-pressure fuel gas cylinders include a close inspection of the cylinders' bottoms?
Is each overhead electric hoist equipped with a limit device to stop the hook at its highest and lowest point of safe travel? Will each hoist automatically stop and hold any load up to percent of its rated load if its actuating force is removed? Are close-fitting guards or other suitable devices installed on each hoist to ensure that hoist ropes will be maintained in the sheave grooves? Are all hoist chains or ropes long enough to handle the full range of movement of the application while maintaining two full wraps around the drum at all times?
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Are guards provided for nip points or contact points between hoist ropes and sheaves permanently located within 7 feet 2. Are employees prohibited from using chains or rope slings that are kinked or twisted and prohibited from using the hoist rope or chain wrapped around the load as a substitute for a sling? Is directional lighting provided on each industrial truck that operates in an area with less than 2 foot candles per square foot of general lighting? Does each industrial truck have a warning horn, whistle, gong, or other device that can be clearly heard above normal noise in the areas where it is operated?
Are the brakes on each industrial truck capable of bringing the vehicle to a complete and safe stop when fully loaded? Are industrial trucks that operate where flammable gases, vapors, combustible dust, or ignitable fibers may be present approved for such locations? Are industrial trucks with internal combustion engines that are operated in buildings or enclosed areas carefully checked to ensure that such operations do not cause harmful concentrations of dangerous gases or fumes?
Are employees prohibited from standing or passing under elevated portions of trucks, whether loaded or empty? When mechanical ventilation is provided during spraying operations, is it so arranged that it will not circulate the contaminated air? Is the spray area free of hot surfaces and at least 20 feet 6. Is infrared drying apparatus kept out of the spray area during spraying operations and is the spray booth completely ventilated before using the drying apparatus? Are lighting fixtures for spray booths located outside the booth with the interior lighted through sealed clear panels?
Are confined spaces thoroughly emptied of any corrosive or hazardous substances, such as acids or caustics, before entry? Are all lines to a confined space that contain inert, toxic, flammable, or corrosive materials valved off and blanked or disconnected and separated before entry? Are all impellers, agitators, or other moving parts and equipment inside confined spaces locked out if they present a hazard?
Are appropriate atmospheric tests performed to check for oxygen deficiency, toxic substances and explosive concentrations in the confined space before entry? Is the atmosphere inside the confined space frequently tested or continuously monitored during work? Is there a trained and equipped standby employee positioned outside the confined space, whose sole responsibility is to watch the work in progress, sound an alarm if necessary and render assistance?
Are employees prohibited from entering the confined space without lifelines and respiratory equipment if there is any question as to the cause of an emergency? Is approved respiratory equipment required if the atmosphere inside the confined space cannot be made acceptable? Is all portable electrical equipment used inside confined spaces either grounded and insulated or equipped with ground fault protection? Before gas welding or burning is started in a confined space, are hoses checked for leaks, torches lighted only outside the confined area and the confined area tested for an explosive atmosphere each time before a lighted torch is taken into the confined space?
If employees will be using oxygen-consuming equipment such as salamanders, torches, furnaces, etc. Whenever combustion-type equipment is used in a confined space, are provisions made to ensure the exhaust gases are vented outside of the enclosure? Is each confined space checked for decaying vegetation or animal matter which may produce methane?
Is the confined space checked for possible industrial waste which could contain toxic properties? If the confined space is below ground and near areas where motor vehicles will be operating, is it possible for vehicle exhaust or carbon monoxide to enter the space? Are hazardous substances, blood and other potentially infectious materials, which may cause harm by inhalation, ingestion, or skin absorption or contact, identified? Are employees aware of the hazards involved with the various chemicals they may be exposed to in their work environment, such as ammonia, chlorine, epoxies, caustics, etc.?
Are spray painting operations performed in spray rooms or booths equipped with an appropriate exhaust system? Is employee exposure to welding fumes controlled by ventilation, use of respirators, exposure time limits, or other means? If forklifts and other vehicles are used in buildings or other enclosed areas, are the carbon monoxide levels kept below maximum acceptable concentration? Are caution labels and signs used to warn of hazardous substances e. Are wet methods used, when practicable, to prevent the emission of airborne asbestos fibers, silica dust and similar hazardous materials?
Is vacuuming with appropriate equipment used whenever possible rather than blowing or sweeping dust? Are grinders, saws and other machines that produce respirable dusts vented to an industrial collector or central exhaust system? Are all local exhaust ventilation systems designed to provide sufficient air flow and volume for the application, and are ducts not plugged and belts not slipping?
Are there written standard operating procedures for the selection and use of respirators where needed? Are employees' physical capacities assessed before they are assigned to jobs requiring heavy work? Where heat is a problem, have all fixed work areas been provided with spot cooling or air conditioning? Are employees screened before assignment to areas of high heat to determine if their health might make them more susceptible to having an adverse reaction? Are employees working on streets and roadways who are exposed to the hazards of traffic required to wear bright colored traffic orange warning vests?
Are exhaust stacks and air intakes located so that nearby contaminated air will not be recirculated within a building or other enclosed area? Are universal precautions observed where occupational exposure to blood or other potentially infectious materials can occur and in all instances where differentiation of types of body fluids or potentially infectious materials is difficult or impossible?
Are combustible scrap, debris and waste materials oily rags, etc. Are all flammable liquids kept in closed containers when not in use e. Do storage rooms for flammable and combustible liquids have explosion-proof lights and mechanical or gravity ventilation? Is liquefied petroleum gas stored, handled and used in accordance with safe practices and standards?
Are all solvent wastes and flammable liquids kept in fire-resistant, covered containers until they are removed from the worksite? Are firm separators placed between containers of combustibles or flammables that are stacked one upon another to ensure their support and stability? Are fuel gas cylinders and oxygen cylinders separated by distance and fire-resistant barriers while in storage? Are fire extinguishers selected and provided for the types of materials in the areas where they are to be used?
Are appropriate fire extinguishers mounted within 75 feet Where sprinkler systems are permanently installed, are the nozzle heads so directed or arranged that water will not be sprayed into operating electrical switchboards and equipment? Are storage tanks adequately vented to prevent the development of excessive vacuum or pressure as a result of filling, emptying, or atmosphere temperature changes?
Are storage tanks equipped with emergency venting that will relieve excessive internal pressure caused by fire exposure? Are employees aware of the potential hazards and trained in safe handling practices for situations involving various chemicals stored or used in the workplace such as acids, bases, caustics, epoxies, phenols, etc.?
Are eye-wash fountains and safety showers provided in areas where corrosive chemicals are handled? Are all containers, such as vats, storage tanks, etc. Are all employees required to use personal protective clothing and equipment when handling chemicals gloves, eye protection, respirators, etc.
Where corrosive liquids are frequently handled in open containers or drawn from storage vessels or pipelines, are adequate means readily available for neutralizing or disposing of spills or overflows and performed properly and safely?
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Are standard operating procedures established and are they being followed when cleaning up chemical spills? Are respirators stored in a convenient, clean and sanitary location, and are they adequate for emergencies? If you have a respirator protection program, are your employees instructed on the correct usage and limitations of the respirators? Are they regularly inspected, cleaned, sanitized and maintained? If hazardous substances are used in your processes, do you have a medical or biological monitoring system in operation? Are you familiar with the threshold limit values or permissible exposure limits of airborne contaminants and physical agents used in your workplace?
Have appropriate control procedures been instituted for hazardous materials, including safe handling practices and the use of respirators and ventilation systems? Whenever possible, are hazardous substances handled in properly designed and exhausted booths or similar locations? Do you use general dilution or local exhaust ventilation systems to control dusts, vapors, gases, fumes, smoke, solvents, or mists that may be generated in your workplace? Do employees complain about dizziness, headaches, nausea, irritation, or other factors of discomfort when they use solvents or other chemicals?
Is there a dermatitis problem? Do employees complain about dryness, irritation, or sensitization of the skin? Have you considered having an industrial hygienist or environmental health specialist evaluate your operation? Are materials that give off toxic, asphyxiant, suffocating, or anesthetic fumes stored in remote or isolated locations when not in use? Is there a list of hazardous substances used in your workplace and an MSDS readily available for each hazardous substance used? Is there a current written exposure control plan for occupational exposure to bloodborne pathogens and other potentially infectious materials, where applicable?
Is there a written hazard communication program dealing with MSDSs, labeling and employee training? Is each container for a hazardous substance i. Does the employee training program on the bloodborne pathogens standard contain the following elements:. Are all employees required to report any obvious hazard to life or property in connection with electrical equipment or lines as soon as possible? When electrical equipment or lines are to be serviced, maintained, or adjusted, are necessary switches opened, locked out or tagged, whenever possible?
Are ground-fault circuit interrupters installed on each temporary 15 or 20 ampere, volt alternating current AC circuit at locations where construction, demolition, modifications, alterations, or excavations are being performed? Are all temporary circuits protected by suitable disconnecting switches or plug connectors at the junction with permanent wiring? Do you have electrical installations in hazardous dust or vapor areas? Are exposed wiring and cords with frayed or deteriorated insulation repaired or replaced promptly?
Are clamps or other securing means provided on flexible cords or cables at plugs, receptacles, tools, equipment, etc. In wet or damp locations, are electrical tools and equipment appropriate for the use or location or otherwise protected? Is the location of electrical power lines and cables overhead, underground, under floor, other side of walls, etc.
Are metal measuring tapes, ropes, hand-lines or similar devices with metallic thread woven into the fabric prohibited where they could come in contact with energized parts of equipment or circuit conductors? Is the use of metal ladders prohibited where the ladder or the person using the ladder could come in contact with energized parts of equipment, fixtures, or circuit conductors? Are all disconnecting switches and circuit breakers labeled to indicate their use or equipment served?
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Do all interior wiring systems include provisions for grounding metal parts of electrical raceways, equipment and enclosures? Are all energized parts of electrical circuits and equipment guarded against accidental contact by approved cabinets or enclosures? Is sufficient access and working space provided and maintained around all electrical equipment to permit ready and safe operations and maintenance? Are all unused openings including conduit knockouts in electrical enclosures and fittings closed with appropriate covers, plugs, or plates?
Are electrical enclosures such as switches, receptacles, junction boxes, etc. Are disconnecting switches for electrical motors in excess of two horsepower able to open the circuit when the motor is stalled without exploding? Switches must be horsepower rated equal to or in excess of the motor rating. Is low voltage protection provided in the control device of motors driving machines or equipment that could cause injury from inadvertent starting?
Is each motor disconnecting switch or circuit breaker located within sight of the motor control device? Is each motor located within sight of its controller or is the controller disconnecting means able to be locked open or is a separate disconnecting means installed in the circuit within sight of the motor?
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Is the controller for each motor that exceeds two horsepower rated equal to or above the rating of the motor it serves? Are employees who regularly work on or around energized electrical equipment or lines instructed in cardiopulmonary resuscitation CPR? Is there an ongoing preventive health program to educate employees in safe levels of noise, exposures, effects of noise on their health and the use of personal protection? Have work areas where noise levels make voice communication between employees difficult been identified and posted? Are noise levels measured with a sound level meter or an octave band analyzer and are records being kept?
Have engineering controls been used to reduce excessive noise levels? Where engineering controls are determined to be infeasible, are administrative controls i. Is approved hearing protective equipment noise attenuating devices available to every employee working in noisy areas? Are employees in high noise areas given periodic audiometric testing to ensure that you have an effective hearing protection system?
Are employees prohibited from fueling an internal combustion engine with a flammable liquid while the engine is running? When spillage occurs during fueling operations, is the spilled fuel washed away completely, evaporated, or are other measures taken to control vapors before restarting the engine? In fueling operations, is there always metal contact between the container and the fuel tank? Are open lights, open flames, sparking, or arcing equipment prohibited near fueling or transfer of fuel operations?
Are fueling operations prohibited in buildings or other enclosed areas that are not specifically ventilated for this purpose? Where fueling or transfer of fuel is done through a gravity flow system, are the nozzles self-closing? When nonpotable water is piped through a facility, are outlets or taps posted to alert employees that the water is unsafe and not to be used for drinking, washing, or other personal use? When hazardous substances are transported through above-ground piping, is each pipeline identified at points where confusion could introduce hazards to employees?
When pipelines are identified by color painted bands or tapes, are the bands or tapes located at reasonable intervals and at each outlet, valve, or connection, and are all visible parts of the line so identified? When pipelines are identified by color, is the color code posted at all locations where confusion could introduce hazards to employees? When the contents of pipelines are identified by name or name abbreviation, is the information readily visible on the pipe near each valve or outlet?
When pipelines carrying hazardous substances are identified by tags, are the tags constructed of durable materials, the message printed clearly and permanently, and are tags installed at each valve or outlet? When pipelines are heated by electricity, steam, or other external source, are suitable warning signs or tags placed at unions, valves, or other serviceable parts of the system?
Are containers of liquid combustibles or flammables, when stacked while being moved, always protected by dunnage packing material sufficient to provide stability? Are dock boards bridge plates used when loading or unloading operations are taking place between vehicles and docks? Are dock plates and loading ramps constructed and maintained with sufficient strength to support imposed loading? Are chutes equipped with sideboards of sufficient height to prevent the materials being handled from falling off? Are provisions made to brake the movement of the handled materials at the delivery end of rollers or chutes?
Are safety latches and other devices being used to prevent slippage of materials off of hoisting hooks? When seven or more employees are regularly transported in a van, bus, or truck, is the operator's license appropriate for the class of vehicle being driven and are there enough seats? Are vehicles used to transport employees equipped with lamps, brakes, horns, mirrors, windshields and turn signals, and are they in good repair?
Are transport vehicles provided with handrails, steps, stirrups, or similar devices, placed and arranged to allow employees to safely mount or dismount? Is a fully charged fire extinguisher, in good condition, with at least a 4 B:C rating maintained in each employee transport vehicle? When cutting tools or tools with sharp edges are carried in passenger compartments of employee transport vehicles, are they placed in closed boxes or containers that are secured in place?