The voltage across a resistor carrying current can be calculated using the formula

A 10 mA current is measured in a 500 ohm resistor. The voltage across the resistor will be

The value of a resistor to drop 100 volt with a current of 0.8 milliampere is

I = E/R is a mathematical equation describing

The voltage to cause a current of 4.4 ampere in a 50 ohm resistance is

A current of 2 ampere flows through a 16 ohm resistance. The applied voltage is

A current of 5 ampere in a 50 ohm resistance produces a potential difference of

This voltage is needed to cause a current of 200 mA to flow in a lamp of 25 ohm resistance

A current of 0.5 ampere flows through a resistance when 6 volt is applied. To change the current to 0.25 ampere the voltage must be

The current flowing through a resistor can be calculated by using the formula

When an 8 ohm resistor is connected across a 12 volt supply the current flow is

A circuit has a total resistance of 100 ohm and 50 volt is applied across it. The current flow will be

The following formula gives the resistance of a circuit

A resistor with 10 volt applied across it and passing a current of 1 mA has a value of

If a 3 volt battery causes 300 mA to flow in a circuit, the circuit resistance is

A current of 0.5 ampere flows through a resistor when 12 volt is applied. The value of the resistor is

The resistor which gives the greatest opposition to current flow is

The ohm is the unit of

If a 12 volt battery supplies 0.15 ampere to a circuit, the circuit's resistance is

If a 4800 ohm resistor is connected to a 12 volt battery, the current flow is