Bodies directly surrounding the body (Penn Foster)
The color of its insulating jacket doesn't. Regarding any other possibility, there's no way for anyone here to help you select the best choice from your list if you don't share the list.
CDX lists all of the possible answers as things that affect the resistance so this question is terrible.
lenght
Length
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the amount of fluctuating current and heat will effect resistancephysical properties as well as impurities
The resistance of a conductor is directly proportional to several different factors.Here is a list of some of them:the cross-sectional area or thickness of the conductor;the overall length of the conductor;the resistivity of the material from which the conductor has been made - note that this is often dependant on its actual temperature;the actual temperature the conductor reaches after a steady electric current has been passing through it for sufficient time for everything to stabilize.
A short circuit conductor is just a conductor in an unexpected location, often with much lower resistance that is expected for the normal load.
Something that conducts electricity with little resistance. one really good conductor is metal.
Usually resistance is encountered by electrons while flowing through a conductor.
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 length of a conductor Does affect it's resistance.The longer it is, the more the resistance.
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.
Voltage, if voltage is increased resistance in the circuit increasesAnswerResistance is determined by the length, cross-sectional area, and resistivity of a conductor. Resistivity is, in turn, affected by temperature -so temperature indirectly affects resistance.These are the only factors that affect resistance. Voltage and current have no direct effect whatsoever on resistance. Current can affect resistance indirectly if it causes the conductor's temperature to increase.For AC circuits, 'skin effect', due to frequency, causes the current to flow towards the surface of a conductor which acts to reduce the effective cross-sectional area of that conductor. So, frequency can also indirectly affect resistance.
It can be because of the material used.As we know R=PL/A where R=resistance P=resistivity of the material used L=length of the conductor A=area of cross section of the conductor
The resistance of a conductor is directly proportional to the resistivity of the conductor. since the resistivity of a conductor is decreases with decrease in temperature hence the resistance.
Cheka
1) What materials the conductor is made of;2) the average cross-sectional area along the length of the conductor;3) the temperature of a conductor also affects its resistance;4) the length of the conductor is also very important.Generally, the longer the conductor, the higher its resistance.Your students' course materials can probably give you a better answer than mine, or at least you'll know it is the right one.The length, the cross sectional area, temperature of conductor along with the intrinsic property called the specific resistance of the substance.
No, a good conductor has a low resistance.
The factors are: length, cross-sectional area and nature of substance.
Magnetism does not affect the resistance of a conductor. The factors affecting resistance are the conductor's length, cross-sectional area, and resistivity. As resistivity is affected by temperature, temperature indirectly affects resistance. However, the changing magnetic field surrounding a conductor carrying an AC current causes the current to flow closer to the surface rather than being distributed throughout the cross-section of the conductor. The greater the frequency, the greater this effect. This has the equivalent effect of reducing the cross-sectional area of the conductor, causing its resistance to rise. This is misleadingly called the 'AC resistance' of the conductor!
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.