If the total amount of energy (work done) is to remain the same, an increase in voltage yields a decrease in current.
P=I X E, where:
P is the power used by the load (the amount of work done) measured in watts
I is the current measured in amps
E is the EMF or voltage measured in volts
So, if we have a 1000W motor, we need to feed it with 8.3 A within a 120V circuit:
(1000W) = (8.3A) X (120V)
If we install the motor within a 240V circuit (assuming the motor is capable) the current is halved:
(1000W) = (4.17A) X (240V)
Bear in mind this doesn't allow for any of the inevitable losses that occur anytime we use or transmit power.
when you increase voltage the curent must also increase.
heat
By installing the varialble resistor in the circuit,the constant dc voltage would change .
A high current flows through a short circuit even if there is no voltage change because the resistance across the short circuit is zero.
Voltage leads current or, more specifically current lags voltage, in an inductive circuit. This is because an inductor resists a change in current.
Voltage attempts to make a current flow, and current will flow if the circuit is complete. It is possible to have voltage without current, but current cannot flow without voltage. The answer is "yes",voltage remains the same as current moves through the circuit.As the voltage remains constant, current increases in the circuit.
in ac circuits power,P=VICOS@ @ is the angle between voltage and current. in dc P=VI V is the voltage I is the current. Power (in Watts) is current (A) x voltage (V)
Change the resistance in the circuit
No, the resistance in a circuit does not change when voltage changes. Resistance is an inherent property of the circuit.
With the minor voltage loss in the wiring, the voltage drop across a single appliance is the total voltage in the circuit, and doesn't change when more devices are added in parallel.
non-linear circuit
By installing the varialble resistor in the circuit,the constant dc voltage would change .
Voltage is the electrical potential that is produced by a given source (ie, a battery or a generator). The voltage is not changed by the type or number of loads on a circuit. A voltage regulator and/or transformer may change the voltage within a perticular load, but cannot change the complete circuit voltage.
If the resistance increases, while the voltage stays the same, current will decrease. Current = voltage divided by resistance
No change in supply voltage as additional resistance is connected in parallel circuit.
A high current flows through a short circuit even if there is no voltage change because the resistance across the short circuit is zero.
no it is not possibleAnswerYes, by changing the voltage OR the resistance.
by changing the way the battery is positioned
Voltage leads current or, more specifically current lags voltage, in an inductive circuit. This is because an inductor resists a change in current.