In the United States and according to the NEC, in commercial and industrial installations, you are limited to 10 receptacles on a 15 amp circuit. The size of the wire is not a determining factor.
There is no limit to the number of receptacles on a circuit in a home and there may be local codes where you live that have stricter requirements.
code states that if a water source such as a sink is within 6 feet of a receptacle, that recetacle (s), must be protected by a GFCI receptacle. I believe the actual distance is 5 feet. Please forgive me if I'm wrong. But the NEC also requires that ANY counter top receptacles in a kitchen and receptacles ANYWHERE in a bathroom must be GFCI protected. More directly to your question, ordinary receptacles can be protected from a GFCI receptacle if properly wired. They are designed to do that. It is a way to save money. You may also consider a GFCI breaker if you have many receptacles to protect. I was told once that there is a limit of 3 "piggy backed" receptacles per GFCI but I have never seen that in the NEC.
Assuming 120 VAC in a residence maximum watts = 15 x 120 = 1800 Watts. For a continuous load you can support 1440 watts which is 80& of maximum. You need 14 AWG gauge wire.
A 30 amp breaker is usually used for a dedicated 30 amp device. Ordinary 15 amp receptacles can not be connected to a breaker of higher trip capacity than the rating of the receptacle. The wire size for a 30 amp breaker is #10 AWG.
A circuit breaker can go bad from being tripped too many times. Many people don't understand that the tripping of a circuit breaker indicates a problem that needs to be corrected. They usually just reset the circuit breaker, leading to a very common second (or third, or fourth) trip. Circuit breakers tripping are for the prevention of fire due to excessive heat in the circuit. They're not supposed to be tripped repeatedly. This can wear the breaker out. Believe it or not, I've also seen circuit breakers fail to re-energize after being turned off. I speculate this was actually caused by the breaker never having been cycled (it was a main breaker), and the time elapsed since it was installed. Electrical equipment doesn't last forever. It's the same as anything else.
If you have contineous tripping on a breaker then there is a fault on the load of that breaker. Don't reset it any more. What is the breaker connected to?
You can typically install multiple 15 amp receptacles on a 15 amp breaker, but the exact number will depend on the specific electrical code regulations in your area and the overall electrical load on the circuit. It's important to ensure that the total load does not exceed the capacity of the breaker to prevent overloading and potential safety hazards.
It depends on the amperage of the circuit breaker. For a typical 15 amp circuit breaker, you can run up to 12 outlets or receptacles. However, it is recommended to consult a qualified electrician to determine the appropriate number of outlets based on the specific electrical load requirements of the devices being used.
A 20 amp breaker can typically handle around 16-18 receptacles, depending on the current draw of the devices plugged into them. It's important not to exceed 80% of the breaker's capacity to prevent overheating.
Many things can determin how many outlets are on one circuit. But for general lighting circuits the number is ten.
Using 14 gauge wire with a 15 amp circuit breaker, you typically can have around 8-10 receptacles per circuit, depending on local electrical code regulations. It's important to consult with a licensed electrician to ensure the proper number of outlets for your specific setup.
"Mechanical Strain gauges" do not have inductance. There are many types of strain gauge: Mechanical, photoelastic, electrical etc.... Are you wanting the inductance of an electrical strain gauge? if so which type?
It sounds like you may have an issue with your electrical panel or wiring causing irregular power distribution. This could be due to loose connections, overloaded circuits, or electrical grounding problems. I recommend contacting a licensed electrician to inspect your electrical system and determine the root cause of the issue for repair.
The load exceeds the limit of the breaker or fuse. For example a 20 amp breaker on a 120 volt circuit will handle 2400 watts. Exceed that wattage and the breaker will trip or the fuse will blow.
For a 60 amp breaker feeding a water heater at 240V, you would need to use a 6-gauge wire. This wire size is appropriate for handling the current without overheating. It's important to consult the National Electrical Code (NEC) or a qualified electrician to ensure compliance with local regulations and safety standards.
It sounds like you have inadvertently picked up a feeder from another circuit in one of the junction boxes that you changed the receptacles in. First of all go back and try shutting on the breaker above the breaker that you turned off when you did the original receptacle change. If the 220 volts disappears then this is the circuit that you have mixed up. If the voltage did not disappear then shut the breaker off below the breaker that you turned off when you did the original receptacle change. If the 220 volts disappeared then this is the circuit that you have mixed up. In home wiring many times a three wire will be taken to the first receptacle box from the distribution panel. The red and black wires will have 220 volts between them and 120 volts from these two wires to white (neutral) wire. Start over by removing all of the receptacles that you installed. Look inside the boxes to find where the three wire starts in the two circuits. Use your voltage tester to find the corresponding breaker for the red wire and the corresponding breaker for the black wire. Depending on what colour the original wire circuit was on the original breaker that you shut off, follow the voltage through the remaining boxes and connect that wire to the new receptacles. Maintain the white wire through out the whole circuit and install it on the silver coloured screw on the receptacle. If more help is required open a discussion on the discussion page to see if we can solve this dilemma.
Many receptacles will. First you need to tell us if you are in north America, UK or Australia.
code states that if a water source such as a sink is within 6 feet of a receptacle, that recetacle (s), must be protected by a GFCI receptacle. I believe the actual distance is 5 feet. Please forgive me if I'm wrong. But the NEC also requires that ANY counter top receptacles in a kitchen and receptacles ANYWHERE in a bathroom must be GFCI protected. More directly to your question, ordinary receptacles can be protected from a GFCI receptacle if properly wired. They are designed to do that. It is a way to save money. You may also consider a GFCI breaker if you have many receptacles to protect. I was told once that there is a limit of 3 "piggy backed" receptacles per GFCI but I have never seen that in the NEC.