Ohm's Law: Volage = Current times Resistance Yes, voltage is proportional to current. That applies in simple circuits as well as to complex circuits such as electrical networks. Your statement that "voltage is inversely proportional to current in electrical circuits" is incorrect. Perhaps you are not considering some critical part of the statement, or you simply heard it wrong.
Ohm's law is applicable in networks. Voltage is current times resistance. That is the definition of resistance.
Its just that, in networks, and/or in AC circuits, things get rather complicated. Sometimes the issue is in how to properly make a measurement. In the final analysis, "the rules are the rules", and Ohm's law is one of them.
The mathematical form of Ohms law is I=V divided by R. I is current, V is voltage while R is the resistance.
Ohm's law: Volts = Amps * Ohms, or Amps = Volts / Ohms 12 volts / 0.5 ohms = 24 amps
Yes, Kirchhoff law is applicable to linear circuits. In fact, both of Kirchhoff'slaws are applicable to ALL circuits, because they're just conservation laws.
INCREASES
ohms law (resistance)
Yes, Ohms law is applicable in altering current.
because they have a proportional relation
Temperature. Ohms law is applicable to measure resistance of an element at constant temperature only.
Yes.
You cannot apply ohm's law to non-linear devices. This is because, the non-linearity introduces different V-I characteristics which cannot be answered by mere Ohm's law.
ohms law.
Superposition theorem is not applicable on non-linear networks.
Because CSMA/CD does not prevent Hidden terminal problem. so it is onlly applicable in Wired networks.
Ohm's Law is applicable in every case, even in cases of non linear resistance such as diodes and light bulbs, and in reactive cases such as motors in AC operation. It just becomes more complex (no pun intended) to calculate effective resistance.
To find the conductance using ohms law,you take the inverse of the resistance(/R)
Current
No.