the lay ratio is the ratio between the lay length of the cabble and the Outer diameter af the cable( or the layer)
lay ratio = lay length / OD
and the lay ratio standard from ISO
Increasing the lay ratio of a standard conductor means increasing the length of lay, which can result in reduced flexibility and increased overall diameter of the conductor. This can impact the handling and installation of the conductor. Additionally, it can affect the electrical performance by increasing inductance and potentially introducing more losses due to skin and proximity effects.
It is a poor conductor.
The current in a conductor can be increased by either increasing the voltage applied across the conductor or decreasing the resistance of the conductor.
Gold is a conductor of electricity. It is highly efficient at conducting electricity due to its low resistance and high thermal conductivity.
Yes, a golden ring is a conductor as gold is a good conductor of electricity.
Increasing the lay ratio of a standard conductor means increasing the length of lay, which can result in reduced flexibility and increased overall diameter of the conductor. This can impact the handling and installation of the conductor. Additionally, it can affect the electrical performance by increasing inductance and potentially introducing more losses due to skin and proximity effects.
armoured OD X 10 time and gain lay of armouring.
Aluminum is a metal that is a good conductor of electricity. It has an excellent ratio of conductivity/weight. Also has an excellent ratio of conductivity/price.
When a pice of magnet shuttles through a loop of conductor (copper wire) it induces electric energy in the conductor, this is known as induction. When alternating current (AC) or interrupted DC current applied to the primary winding of a transformer, the magnetic flux cutting through the secondary known as conduction produces electric power in the secondary. The ratio of power gained or lost in the secondary winding depends on the ratio of turns of conductor between primary and secondary. Newaz.
I=V/R, current = voltage divided by resistanceAnswerOhm's Law states that 'the current flowing through a conductor, at constant temperature, is directly proportional to the potential difference across the conductor'.Ohm's Law only applies when the ratio of voltage to current is constant over a wide range of voltages. If the ratio changes, then Ohm's Law does not apply.
A filamentary conductor is a type of conductor that consists of a thin, elongated wire or thread-like structure. It is commonly used in applications where flexibility and compactness are essential, such as in electronics and electrical wiring. Filamentary conductors typically have a high aspect ratio, meaning their length is much greater than their diameter, allowing for efficient transmission of electrical signals or currents.
That is the resistance, measured in ohms.
A 'non-ohmic' conductor is one that does not obey Ohm's Law -i.e. the ratio of voltage to current is not constant when the voltage across it varies.
A conductor Conductor The conductor is also known as "Maestro".
Copper is a conductor of electricity.
Brass is a metal that conducts electricity. Therefore, a brass paper clip is a conductor.
It is an insulator