What is Electrical Continuity?
Continuity refers to being part of a complete or connected whole. In electrical applications, when an electrical circuit is capable of conducting current, it demonstrates electrical continuity. It is also said to be “closed,” because the circuit is complete. In the case of a light switch, for example, the circuit is closed and capable of conducting electricity when the switch is flipped to “on.” The user can break the electrical continuity by flipping the switch to “off,” opening the circuit and rendering it incapable of conducting electricity. For consumers, the most obvious sign that there is an electrical continuity issue with their wiring is when plugged-in electrical devices fail to work. However, unintended breaks in electrical continuity can have more serious consequences, such as electrical fires or damage to electrical equipment, and therefore, it is recommended that all electrical wiring be kept in good working order and properly maintained. A number of devices are manufactur
Continuity refers to being part of a complete or connected whole. In electrical applications, when an electrical circuit is capable of conducting current, it demonstrates electrical continuity. It is also said to be “closed,†because the circuit is complete. In the case of a light switch, for example, the circuit is closed and capable of conducting electricity when the switch is flipped to “on.” The user can break the electrical continuity by flipping the switch to “off,” opening the circuit and rendering it incapable of conducting electricity. For consumers, the most obvious sign that there is an electrical continuity issue with their wiring is when plugged-in electrical devices fail to work. However, unintended breaks in electrical continuity can have more serious consequences, such as electrical fires or damage to electrical equipment, and therefore, it is recommended that all electrical wiring be kept in good working order and properly maintained. A number of devices are manufac
Continuity refers to being part of a complete or connected whole. In electrical applications, when an electrical circuit is capable of conducting current, it demonstrates electrical continuity. It is also said to be “closed,?because the circuit is complete. In the case of a light switch, for example, the circuit is closed and capable of conducting electricity when the switch is flipped to “on.” The user can break the electrical continuity by flipping the switch to “off,” opening the circuit and rendering it incapable of conducting electricity. For consumers, the most obvious sign that there is an electrical continuity issue with their wiring is when plugged-in electrical devices fail to work. However, unintended breaks in electrical continuity can have more serious consequences, such as electrical fires or damage to electrical equipment, and therefore, it is recommended that all electrical wiring be kept in good working order and properly maintained. A number of devices are manufacture
Continuity refers to being part of a complete or connected whole. In electrical applications, when an electrical circuit is capable of conducting current, it demonstrates electrical continuity. It is also said to be closed, because the circuit is complete. In the case of a light switch, for example, the circuit is closed and capable of conducting electricity when the switch is flipped to “on.” The user can break the electrical continuity by flipping the switch to “off,” opening the circuit and rendering it incapable of conducting electricity. For consumers, the most obvious sign that there is an electrical continuity issue with their wiring is when plugged-in electrical devices fail to work. However, unintended breaks in electrical continuity can have more serious consequences, such as electrical fires or damage to electrical equipment, and therefore, it is recommended that all electrical wiring be kept in good working order and properly maintained. A number of devices are manufactured