The continuity of a grounded conductor should not depend on a connection that is subject to disconnection, such as a plug or terminal connection. Instead, it should rely on a continuous path that ensures effective grounding, typically achieved through a solid and permanent connection to the grounding system. This ensures that the grounding system remains intact and effective for safety and fault protection, regardless of any removable connections.
the flowing in the conductor is related as given by the relation... I=Vena v=drift velocity of electron e=charge on electron n=concentration of electron in the current carrying conductor . a=area
Yes. Pressure being voltage. Voltage divided by resistance equals current.
Neutral, by definition, is grounded at the distribution panel, and also at the distribution pole. That is how the hot to ground voltages are prevented from exceeding their normal voltage and encroaching on truly lethal voltages, such as 7.6kV in a typical US 13.2kV system, in a wye configuration.Note: and this is critical, do not depend on the fact that neutral is grounded and consider that it is the same as protective earth ground. It is not. Protective earth ground is a different wire.
resistivity and resistance are two diff. things...........resistance depends on length and thickness resisitivity too depends on the area and length resistivity=resistance*area/length
It would depend on both the actual length or size of the conductor itself, and the strength and, or origin of the heat, light electricity, or sound.======================================Answer #2:The conducting traces in some LSI integrated circuits are nanometers long,whereas intercity utility transmission lines may be hundreds of miles long.I can't see how the strength or origin of the heat, light, electricity, or soundhas any effect on the length of the conductor ... unless you're measuring theconductor in terms of wavelength.
No, the drift velocity of electrons in a conductor does not depend on the diameter of the conductor. It is primarily influenced by the electric field applied across the conductor and the mobility of charge carriers within the material. The diameter of the conductor typically affects the resistance of the material, but not the drift velocity of electrons.
In general, yes, it does. For example, if you move a conductor in a magnetic field, this will induce a certain voltage between the extremes of the conductor; the corresponding current will then depend on the resistance.
The electric potential inside a conductor is constant and does not depend on the properties of the conductor. This is known as the electrostatic equilibrium condition. The properties of the conductor, such as its shape and material, only affect the distribution of charges on its surface, not the electric potential inside.
I don't believe so. It will depend on your connection. If your connection is not how you would like it move the router closer to your console, or vice-versa.
A key would be a conductor. ------------------------------------------------------ That would depend on what the key was made of. Keys made out of metals would be conductors, while contactless plastic car keys would be insulators.
there can be no connection. it would depend on secure from what freedom from what,
That will depend on the Bluetooth and BlueTrip you have on your Nano. The strength will also depend on the versions (3G, 4G, 5G).
1. Ther is no limit if we are using Optical Fiber DSL Connection 2. There is limit depend on number of nodes
It will depend on the specific book and what materials have been used to create it. In most cases, a standard bound book of paper and standard cover will be an Insulator. With specific inks or metallic materials it could be a conductor.
Resistance R =p(L /A)i,e Resistance(R) of a conductor will be directly proportional to its length(L) ==> if the length of the conductor increases its resistance also will increase.i,e Resistance(R) of a conductor is inversely proportional to its cross section area(A) ==> if the Area of the conductor increases its resistance also will decrease.
It would of course depend on the specific application. Current tends to travel on the surface of a conductor and a stranded conductor has more surface area and thus offers less resistance to the current. Stranded wire also bends a bit easier than the corresponding size solid wire.
Yes, resistivity does depend on the dimensions of the conductor. The resistivity of a material is an intrinsic property, but the resistance of a conductor is also influenced by its dimensions such as length, cross-sectional area, and shape. These dimensions affect the resistance of the conductor through the formula R = ρ * (L/A) where ρ is resistivity, L is length, and A is the cross-sectional area.