voltage and resistance
There is also temperature.
A high current flows through a short circuit even if there is no voltage change because the resistance across the short circuit is zero.
While there is a voltage, a current will flow - assuming there is a conducting path. The amount of the current can be calculated by Ohm's Law. That is, you divide voltage by resistance.
The stronger the magnetic field on your inductor the greater amount of current you will have flowing through your series circuit.
Yes. Pressure being voltage. Voltage divided by resistance equals current.
Kirchoff's Current Law: The signed sum of the currents entering a node is zero. Assume the top of the battery is a node. The current entering it (from the battery) is equal to the sum of the currents leaving it (to the branches). This adds up to zero.
yes
A resistor resists the flow of current in a circuit but a transistor changes the amount of current through a device. This is called current magnification. Field effect transistors FETs and MOSFETs (metal oxide semiconductor field effect transistor) may also change the amount of current to a load lastly a variable resistor or a potentiometer or a variable resistor can variate the amount of current at your will
5amps of current will flow it
It depends on the current asset, so the change of current asset might be increase or decrease cash flows.
A high current flows through a short circuit even if there is no voltage change because the resistance across the short circuit is zero.
one Answer EVAPORATION
2 plus 2
While there is a voltage, a current will flow - assuming there is a conducting path. The amount of the current can be calculated by Ohm's Law. That is, you divide voltage by resistance.
the magnet is start picking things up
Kirchoff's Current Law: The signed sum of the currents entering a node is equal to zero. This means that the current leaving the battery is equal to the sum of the currents in the branches of the circuit.
The stronger the magnetic field on your inductor the greater amount of current you will have flowing through your series circuit.
Current intensity refers to the amount of electric current flowing through a conductor in a given time, measured in amperes (A). It is a measure of the rate at which electric charge flows in a circuit.