ALL resistance are conductors. just the magnitude value changes
What is the Relationship between resistance and inductance in a RL circuit?
Your question is unclear. But, if you are asking what the relationship between voltage and the distance between conductors is, then the higher the voltage, the greater the distance must be.
The relationship between resistance and capacitance in a clc circuit is the capacitive reactance given by XC.
power=i square*resistance or power=v suare/resistance
It is called resistance Good conductors have a bad resistance While bad conductors or insulators have good resistance against the flow of electricity
Conductors have resistance due to collisions between free electrons and atoms within the material. This resistance causes energy to be lost in the form of heat when current flows through the conductor. The resistance value depends on the material and dimensions of the conductor.
What is the Relationship between resistance and inductance in a RL circuit?
Superconductors have no resistance, making them the best conductors. Semiconductors have moderate resistance. Conductors have low resistance, making them better conductors than insulators, which have high resistance, making them the poorest conductors.
Semiconductors have resistance levels between that of conductors and insulators. They conduct electricity better than insulators but not as well as conductors, making them useful in electronic devices. Examples include silicon and germanium.
Your question is unclear. But, if you are asking what the relationship between voltage and the distance between conductors is, then the higher the voltage, the greater the distance must be.
Resistor is a current a insulator is a not conductive and conductors can conduct.
The relationship between resistance and capacitance in a clc circuit is the capacitive reactance given by XC.
Superconductors have no resistance. Conductors have low resistance, semiconductors have intermediate resistance, and insulators have high resistance.
The resistance of pure metallic conductors increases with temperature, because the resistivity of these conductors increase with temperature.
The resistance vs length graph shows that there is a direct relationship between resistance and length. As the length of the material increases, the resistance also increases.
The voltage vs resistance graph shows that there is a direct relationship between voltage and resistance. As resistance increases, the voltage required to maintain the same current also increases. This relationship is depicted by a linear graph where the slope represents the resistance.
Conductors have low resistance to the flow of electric current. The resistance of a conductor depends on its material, length, and cross-sectional area. Materials like copper and silver have low resistance, making them good conductors of electricity.