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voltage is directly proportional to resistance, and the current is inversely proportional to resistance. According to Ohm's Law, current is directly proportional to voltage.
Directly proportional. As temperature goes up, so does resistance (hence supercomputers being cooled to such low temperatures).
The heat produced due to electric current through a resistance is i) directly proportional to the square of the current ii) directly proportional to the resistance value of the conductor iii) directly proportional to the time of flow of current.
Potential Difference (V) across two resistors is directly proportional to the resistance (R) as greater the potential difference, greater is the resistance and vice versa.
hi! no the current squared is directly proportional to the change in temp, Joules Law
It is both proportional and inversely propertional to resistance however I am not exactly sure why which is why I am searching Google ATM for answers.
voltage is directly proportional to resistance, and the current is inversely proportional to resistance. According to Ohm's Law, current is directly proportional to voltage.
The statement current is directly proportional to voltage and inversely proportional to resistance is known as Ohm's Law.
If you have a conductor ... say, a copper wire ... and you keep its diameter and temperatureconstant, then yes, its resistance will be directly proportional to its length.
inversely proportional
Directly proportional. As temperature goes up, so does resistance (hence supercomputers being cooled to such low temperatures).
The heat produced due to electric current through a resistance is i) directly proportional to the square of the current ii) directly proportional to the resistance value of the conductor iii) directly proportional to the time of flow of current.
Peripheral resistance
Ohm's Law: Current = Voltage times resistance, hence current is directly proportional to voltage.
Potential Difference (V) across two resistors is directly proportional to the resistance (R) as greater the potential difference, greater is the resistance and vice versa.
hi! no the current squared is directly proportional to the change in temp, Joules Law
When it is on the cross-sectional area it is inversely proportional to the wire,otherwise it is directly proportional to the wire.