The power vs resistance graph illustrates how power output changes with varying levels of resistance in a system. It can be used to analyze the relationship between power and resistance by showing how power increases as resistance decreases, and vice versa. This graph helps in understanding how changes in resistance impact the power output of a system.
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.
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.
In the resistance-temperature relationship, resistance typically increases as temperature increases. This is because the atoms in a material vibrate more at higher temperatures, causing more collisions with electrons and increasing resistance.
The resistance of a thermistor decreases as the temperature increases.
The relationship between temperature and resistance is that as the temperature of a material increases, its resistance also increases. This is because higher temperatures cause the atoms in the material to vibrate more, which disrupts the flow of electrons and increases resistance.
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.
What is the Relationship between resistance and inductance in a RL circuit?
The cattle
Yes.
The relationship between resistance and capacitance in a clc circuit is the capacitive reactance given by XC.
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.
power=i square*resistance or power=v suare/resistance
In the resistance-temperature relationship, resistance typically increases as temperature increases. This is because the atoms in a material vibrate more at higher temperatures, causing more collisions with electrons and increasing resistance.
The resistance of a thermistor decreases as the temperature increases.
The relationship between temperature and resistance is that as the temperature of a material increases, its resistance also increases. This is because higher temperatures cause the atoms in the material to vibrate more, which disrupts the flow of electrons and increases resistance.
There is no physical relationship between resistance and capacitive reactance. But if someone tells you that the impedance of something: Z = 3 -4j, the real resistance is 3 and the reactive capacitance is -4.
In electrical circuits, the resistance of a material typically increases as its temperature rises. This relationship is known as temperature coefficient of resistance.