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Our everyday electrical devices are powered by plug-ins. Some plugs only have two prongs, while others have three prongs. So, what is the purpose of the third prong in the plug?

 

The third prong is a grounding safety feature that guards against malfunctions. According to the Consumer Product Safety Commission, Ground Fault Circuit Interrupters, or GFCIs, have prevented 50% of home electrocutions.

 

Now we will take a closer look at three-prong plugs and what they do in our electrical systems.

 

Catalog

Introduction

Related Video

How Does the Third Prong on a Plug Work?

Is It Safe to Cut or Use an Adapter on the Ground Prong?

Why Do Some Plugs Have Three Prongs While Others Don't?

What is the Difference Between Two- and Three-pronged Plugs?

How to Change a Two-prong Outlet to Three

FAQ

 

Introduction

Why does an electrical plug have a third prong? The ground connector is found on the third prong of a plug, in case you didn't know. It's circular and sits below the two blade-style plug protrusions. It is a necessary component for outdoor extension cords and any device that is not completely shielded. Consider it an emergency path for electricity to take if the electrical device develops a short circuit or other fault.

 

 

Video: Why some power plugs have 3 prongs instead of 2

Video Description:

Have you ever looked at your iPhone cable and then looked at your computer charger and thought, "why does one of these have 2 prongs, but the other one has 3?" Well, the answer all boils down to your personal safety. Here's why.

 

How Does the Third Prong on a Plug Work?

The majority of outlets in North America have two vertical slots. The hot wire is in the right slot, and the neutral wire is in the left. To power your device, electricity first travels through the hot wire. The current then continues to flow by returning to the outlet via the neutral wire.

 

The circuit would be incomplete without this loop. In other words, only two prongs are required for an outlet or device to function.

 

A ground prong or grounding wire is the rounded third prong on a plug. Electricity is constantly looking for a way to reach the ground. If the circuit is damaged or malfunctions, the ground wire serves as an emergency path that protects you and your devices from electric shock.

 

A loose wire or a malfunction in a two-prong outlet could cause the electrical current to connect with the device or outlet's outer parts. The outer layers of two-prong plugs are insulated, but they can wear down over time or with continuous use.

 

Is It Safe to Cut or Use an Adapter on the Ground Prong?

Although using a ground plug adapter is common, it is not safe for your home or electronics. Older electrical outlets only had two slots: a narrow "hot" slot and a wide "neutral" slot. A round "ground" slot is included in a three-slot receptacle for safety. If there is a problem with the outlet, cord, or appliance, the ground provides a path for the electricity to return to the breaker box. Without a ground, electricity will seek the shortest path, which may be through your body. Using a ground plug adapter for a three-prong cord and a two-slot outlet with older electrical systems that lack a dedicated grounding wire may result in shock.

 

Certainly, a plug adapter can be purchased at almost any store for very little money and requires very little effort to use, allowing you to use electrical devices in places where you would normally be unable to. They do not, however, provide any type of security. Surges, malfunctions, and even fire are all protected by the third prong on devices. Using an adapter disables that functionality, leaving them vulnerable to damage. A grounded circuit is not the same as a grounded plug adapter. Because they are sold in stores, most people believe they are safe. If an electrical surge occurs while using one of these adapters, it can cause electrocution or a fire.

 

Why Do Some Plugs Have Three Prongs While Others Don't?

A ground prong provides an emergency path for electricity to travel through if the device experiences a short circuit or fault. Other electrical components, such as wires, are present in all appliances with plugs. If one of these wires breaks or becomes loose, the electrical current will not flow properly through the device. At best, this will destroy your device. In the worst-case scenario, the misdirected current could deliver a painful and potentially lethal shock.

 

To avoid this problem, the third prong grounds the device. If your appliance fails, the grounding prong creates a new, low-resistance grounding path down to the main electrical panel. This trips the circuit breaker, halting the electrical current and preventing damage to your appliance, a house fire, or an electrical shock.

 

Some electronic devices are designed to prevent an electric overload or surge in the absence of a ground prong. Even if an appliance fails, it may have an internal voltage adapter that prevents it from emitting a lethal voltage. Other devices have plastic cases or other insulation to protect them from short-circuiting.

 

Shielding, on the other hand, does not protect against water. To prevent electrocution, devices or appliances designed for outdoor or wet-area use must include a ground prong. Devices with metal housing—metal that you would touch when handling the appliance—will have a third ground prong to prevent electrical shocks.

 

What is the Difference Between Two- and Three-pronged Plugs?

Let us begin by explaining what the holes in an outlet do. In the United States, a standard 120-volt outlet has two vertical slots and a round hole centered below them. The slot on the left is slightly larger than the slot on the right. The left slot is referred to as "neutral," the right slot as "hot," and the hole beneath them as "ground." The prongs on a plug are designed to fit into these slots in the outlet.

 

You already know that electricity must flow in a circuit if you've read How Batteries Work. Electricity flows from one terminal of the battery to the other in a battery. Power flows from hot to neutral in a household outlet. When you plug an appliance into an outlet, it completes the circuit from the hot slot to the neutral slot, and electricity flows through it to run a motor, heat some coils, or whatever. Assume you plug a light bulb into an outlet. Power will flow from the hot prong to the filament, then back to the neutral prong, producing light in the process.

 

What if you plugged a thick strand of the wire straight from an outlet's hot slot to its neutral slot? Unlike an appliance, which is limited to 60 watts (for a light bulb) or 500 watts (for a toaster), the wire would allow an enormous amount of electricity to flow through it. Back in the breaker box, the circuit breaker for the outlet would detect the massive surge and shut down the electricity flow. The circuit breaker keeps the wires in the wall or the outlet from overheating and catching fire.

 

An outlet's ground slot and neutral slot are the same. That is, if you return to the breaker box, you will notice that the neutral and ground wires from all of the outlets are connected to the same location. They are all connected to the ground (see How Power Distribution Grids Work for details on grounding). Why do you need both if they both go to the same place?

 

If you look around your house, you'll notice that almost every appliance with a metal case has a three-prong outlet. This may also include some items, such as your computer, that have a metal-encased power supply inside, even if the device itself is plastic. Grounding is intended to protect people who use metal-encased appliances from electric shock. The casing is directly connected to the ground prong.

 

What happens if the ground prong is removed or a cheater plug is used to plug a three-prong appliance into a two-prong outlet? Nothing, really; the appliance will continue to function. However, you have disabled an important safety feature that protects you from electric shock if a wire becomes loose.

 

How to Change a Two-prong Outlet to Three

To learn how to ground an outlet, follow the steps below.

 

Step 1: Examine the ground.

Insert one prong of a circuit tester into the hot slot of the receptacle (the shorter one) and touch the other to a screw that holds the cover plate in place.

The tester should illuminate. If it doesn't, the box isn't properly grounded. You have two options: install a GFCI  (see steps below) or hire an electrician to repair the wiring.

 

Step 2: Disconnect the old receptacle.

Turn off the electricity at the breaker panel or fuse box.

Remove the old receptacle from the box and disconnect the wires.

 

Step 3: Install the new receptacle.

Connect the black (hot) and white (neutral) wires to the brass and silver terminals, respectively.

Use the terminals on a GFCI that correspond to the "line" label on the back of the receptacle. (Skip to Step 6 if your box is not grounded.)

 

Step 4: Screw in the ground screw.

This green screw, available at hardware stores, fits into a threaded hole in the box's back.

Tighten the screw with one end of an 8-inch green grounding wire or pigtail (also available at hardware stores).

 

Step 5: Connect the receptacle to the ground.

Connect the opposite end of the 8-inch grounding pigtail to the green grounding terminal on the three-prong or GFCI receptacle.

Place the new receptacle in the box.

 

Step 6: Turn on the electricity.

To ensure that the circuit is operational, use a circuit tester.

 

FAQ

1.Should I upgrade a two-prong outlet to a three-prong outlet?

Yes. If you have an older home (built before 1962) with two-prong outlets, you should have them rewired to a grounded three-prong outlet.

 

2.Is it safe to remove the third prong or use a "cheaper plug"?

A three-pronged plug will only fit into three-pronged outlets. The third prong, however, cannot be removed because it completes the ground circuit. It's a critical safety feature that guards against flaws.

 

3.What can I do with outlets that only have two prongs?

Assume the device you want to use has a three-prong plug but you only have a two-prong outlet. An adapter is a useful short-term solution, but it should not be used for long-term purposes or with outdoor devices. An electrician can also convert your ungrounded outlets to three-prong outlets.

 

4.Why do some electronic devices only have two prongs?

Surge protection is built into some devices that do not require a ground prong. When using a two-prong or ungrounded outlet, this is a must-have safety feature. Instead of a ground wire, these devices employ an internal voltage adapter or insulation to prevent a short circuit. The holes found in 98 percent of flat two-prong plug appliances are not for grounding. They're a safety feature that grips the inside of the socket to keep it from slipping.

 

5.Why do some plugs have a third prong?

The added security of 3-prong plugs is critical for any appliance or cable intended for use in an outdoor or wet area. Moisture and other external factors can cause plugs to wear and cause dangerous malfunctions.

 

Existing two-prong receptacle outlets are legally allowed to remain in place and can be replaced with another two-prong receptacle where a ground connection (what a third prong plugs into) does not exist, according to the National Electrical Code.

 

7.Why are three-prong plugs used?

A three-prong plug is designed to safely supply electricity to electrical appliances. The third prong grounds the electricity, preventing electric shock to anyone who uses the metal-encased appliance.

 

8.Can you remove the third prong?

If you remove the third prong, nothing happens technically. You have, however, disabled an important safety feature that protects you from electric shock if a wire becomes entangled.

 

9.Are plug adapters safe to use?

No, not in particular. While many people use ground plug adapters, they are not safe for you, your home, or whatever you are plugging in. Using an adapter disables the ground prong's safety function, leaving it vulnerable to damage.

 

10.What wires are connected to a three-prong plug?

The left slot is "neutral," and the white wire connected to it should be connected to the silver screw. The right slot is "hot," and the black wire connected to it should be connected to the brass screw. Connect the green "grounding" wire to the green screw.

 

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