The length of a conductor Does affect it's resistance.
The longer it is, the more the resistance.
An orchestra conductor uses a conducting baton.
When the conductor can change the length of the beat, elongating or shortening the duration of the note for effect?
A conductor Conductor The conductor is also known as "Maestro".
That would be a conductor.
Copper is commonly used as a material in electronic components because it is a very good conductor of electricity and heat, both of which are desired properties in electronics. Copper is also a pliable element than can be cut thin and turned into wires.
This are the factor which affect resistance of a conductor (1). Area of conductor (2). Length of conductor (3) Temperature (4). Type or substance of material used in conducting the electricity.
The factors are: length, cross-sectional area and nature of substance.
Resistance is affected by the length, cross-sectional area, and resistivity of the conductor. The resistivity, in turn, is affected by temperature. So only by changing one of these four factors will the resistance of a conductor change. Changing voltage will have no affect upon the conductor's resistance.
Yes. If a uniform, homogeneous conductor is reduced to half of its length, then its conductancebecomes double, (equivalent to its resistance becoming 1/2 as great).
The material from which the conductor is made, the length of the conductor, the diameter of the conductor and the temperature of the conductor are all things that impact its resistance.
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.
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.
Conductor resistance = Conductor resistivity * Length of conductor / Cross sectional area of conductor. So. It is directly proportional to material & conductor length. And inversely proportional to the cross sectional area of conductor.
Doubling the diameter of a circular-section conductor will quadruple its cross-sectional area and, therefore, reduce its resistance by a quarter. Doubling the length of a conductor will double its resistance. So, in this example, the resistance of the conductor will halve.
The resistance of a conductor is relatively low while an insulator should have very high resistance. The former is used to transmit electricity and the latter is designed to inhibit flow of electricity.
ERMM THE RESISTANCE INCREASES ) when longer
No, the resistance is fixed by the cross section and length of the conductor and does not vary with voltage.