Ohm's original law was 'The potential difference across a conductor is proportional to the current flowing through it, provided physical conditions such as temperature remain constant.'
Today Ohm's law is expressed as E = IR or sometimes V = IR,
the units being Volts, Amps and Ohms.
AnswerOhm's Law ('the current flowing along a conductor, at constant temperature, is directly proportional to the potential difference across that conductor') only applies when the resistance of the conductor is constant so, when verifying Ohm's Law, the temperature must be kept constant, in order to keep the resistance constant.
It should be pointed out that the ratio of voltage (U) to current (R) is called resistance (R), and the resistance of a circuit can be found from the equation, R = U/I whether Ohm's Law applies or not -but Ohm's Law itself only applies when the ratio is constant over a range of voltage variation.
R=(rho * distance) / cross sectional area
Temperature. Ohms law is applicable to measure resistance of an element at constant temperature only.
The Ohm's law is defined as voltage propositional to current. The equation given by V=IR R IS THE PROPOSITIONAL CONSTANT
ohms law.
how do you use ohms law express conductance in terms of current and voltage?
V=IR by ohms law. Voltage across the resistor is the product of current flowing and resistance of the conductor at constant temperature.
1 volt applied across one ohms Will conduct one Ampere
Because by varying temperature ,the conductivity hence the resistivity varies so the constant varies.
Temperature. Ohms law is applicable to measure resistance of an element at constant temperature only.
The Ohm's law is defined as voltage propositional to current. The equation given by V=IR R IS THE PROPOSITIONAL CONSTANT
ohms law.
how do you use ohms law express conductance in terms of current and voltage?
The resistance remains constant. The voltage would change, in accordance with Ohms' law, with a change in current.
Ohms law in most simplest form states that for a given conductor at a constant temperature current and voltage are directly related. ie V proportional to I. To equate any terms we need a equality sign and in order to make it a equality relation we introduce a constant, resistance. It is an inherent property of the system that doesn't vary for given dimension and temperature.
V=IR by ohms law. Voltage across the resistor is the product of current flowing and resistance of the conductor at constant temperature.
To find the conductance using ohms law,you take the inverse of the resistance(/R)
Current
No.