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Your question lacks detail but, in general, increasing the load will increase the current.
P = I2R (power = current squared times resistance). Therefore, if the current doubles, the amount of dissipated electrical energy will increase by a factor of 4.P = I2R (power = current squared times resistance). Therefore, if the current doubles, the amount of dissipated electrical energy will increase by a factor of 4.P = I2R (power = current squared times resistance). Therefore, if the current doubles, the amount of dissipated electrical energy will increase by a factor of 4.P = I2R (power = current squared times resistance). Therefore, if the current doubles, the amount of dissipated electrical energy will increase by a factor of 4.
-- The resistance of the wire.AND-- The voltage between the ends of the wire.OR-- The current through the wire.
by increasing the strngth of magnets used in it.
The amount of current passing through your body and the path of the current.
Your question lacks detail but, in general, increasing the load will increase the current.
P = I2R (power = current squared times resistance). Therefore, if the current doubles, the amount of dissipated electrical energy will increase by a factor of 4.P = I2R (power = current squared times resistance). Therefore, if the current doubles, the amount of dissipated electrical energy will increase by a factor of 4.P = I2R (power = current squared times resistance). Therefore, if the current doubles, the amount of dissipated electrical energy will increase by a factor of 4.P = I2R (power = current squared times resistance). Therefore, if the current doubles, the amount of dissipated electrical energy will increase by a factor of 4.
-- The resistance of the wire.AND-- The voltage between the ends of the wire.OR-- The current through the wire.
An electric current is the amount of electrons per unit time or seconds.
It is possible to produce some amount of electricity by attaching an electric motor to the wheel. As the motor run backwards, it will produce and electric current which you can monitor by using a small light bulb or an electric meter. However, the current produced will be on a very low intensity.
The resistor allows current to enter the electromagnet in an electric motor. The resistor regulates the amount of current that enters the electric motor.
If wire delivering a certain amount of current is made narrower, the resistance of the wire will increase. This will limit current, and the wire will warm up some. If the wire is made shorter, resistance will decrease. The electrical codes have well published limits on the amount of current different types of wire can carry.
The amount of current varies between 1 mA and 3mA. The gender and age determine the minimum amount and current.
It determines the amount of electric current it can safely carry
Simply, direct current (DC). The amount of current depends on the circuit it is used in.
by increasing the strngth of magnets used in it.
Heat produced in a wire is directly proportional to the square of current. A wire can withstand only some specific amount of heat. When current increases above the capacity of wire/appliance,it catches fire