The current in a conductor can be increased by either increasing the voltage applied across the conductor or decreasing the resistance of the conductor.
By changing the magnitude of the current flowing through the conductor. By changing the direction of the current flow in the conductor. By changing the orientation or shape of the conductor carrying the current.
A magnetic field is formed around the conductor when an electric current flows through it. The strength of the magnetic field is directly proportional to the magnitude of the current flowing through the conductor.
The current conductor of the Vienna Philharmonic is Riccardo Muti. He has been serving as the principal conductor of the Vienna Philharmonic since 2021.
When an electrical current runs through a conductor, electrons flow in the direction of the current. This flow of electrons creates a magnetic field around the conductor. The amount of current flowing through the conductor is directly proportional to the strength of the magnetic field produced.
The amount of current a conductor can carry is determined by factors such as the material, size, and temperature of the conductor. It is calculated using Ohm's Law (I = V / R), where I is the current, V is the voltage, and R is the resistance of the conductor. The conductor's ampacity rating also provides guidance on the maximum current it can safely carry without overheating.
TRUE
I assume you meant pressure to voltage. The resistance of a conductor is directly proportional to the temperature of the conductor. If the temperature of the conductor increases due to increased current, then the resistance tend to increase too.
Increasing the current passing through a conductor results in a stronger magnetic field, not a weaker one. Therefore, increasing the current from 10 A to 15 A should increase the strength of the magnetic field produced by the conductor.
It depends on many factors.!! Mainly it depends upon the type of the conductor. i.e., How many valance electron is there in the conductor. As many as valance electrons as much current flows through the conductor. Length of the material should be less as much as possible and the Area (i.e., Cross section) should be increased. So the conductivity will obviously increased. By sticking in to the basics Resistance of the material should be very low. For an Ideal superconductor the resistance is ZERO as we all know. So more current flows through the conductor.
how we decide current throuh conductor
Circuit breakers are used to protect the conductor that is connected to it. The sizing of the conductor is based on the current of the load. As the connected load current is increased so must the wire size to accommodate that higher current. Therefore as the wire size increases so must the breaker size to accommodate the higher load current.
When an electric charge moves through a conductor, an electric current is generated in the conductor. The flow of electrons creates a flow of current in the conductor, which is the movement of electric charge through the material.
The conductivity of a semi-conductor can be increased by raising the temperature of the semi-conductor .
voltage is applied to a conductor to cause a current flow
The thicker the conductor, the less the current that will flow through.
Current is proceeded in a conductor by the activation and contact vibration of free electrons in conductor.
pogi current flow in the armature conductor