When two wires with parallel currents are placed close to each other, they can create a magnetic field that interacts with each other. This interaction can cause the wires to either attract or repel each other, depending on the direction of the currents. This phenomenon is known as the Ampre's force law.
The force between two infinite, parallel wires carrying current when placed close to each other is known as the magnetic force. This force is attractive or repulsive depending on the direction of the currents in the wires.
In a parallel circuit, each branch has its own pathway for current to flow. A switch placed in one branch of the circuit can control the flow of current through that specific branch only, without affecting the other branches. When the switch is closed, it allows current to flow through that branch; when it's open, it blocks the flow of current.
An AC wall switch is in series within the parallel circuit of the overall house wiring.
The needle of a compass will deflect from its original position when a wire carrying an electric current is placed across it. This is due to the magnetic field created by the current in the wire, which interacts with the magnetic field of the compass needle, causing it to move.
When a solenoid is placed on its side with a current running through it, the magnetic field it produces will be oriented horizontally instead of vertically. This can affect the way the solenoid interacts with other magnetic materials or devices nearby.
The force between two infinite, parallel wires carrying current when placed close to each other is known as the magnetic force. This force is attractive or repulsive depending on the direction of the currents in the wires.
electricity is induced
An ammeter has low resistance (ideally no resistance) because it is placed in series with other circuit elements to detect how much current is flowing. If it is placed in parallel with a component it will short-circuit it. That is a bad thing.
they create an electrical current
Voltmeter should be connected always in parallel to a circuit ANSWER : IT should be in parallel except when used to measure current. Then it should be placed in series across a shunt.
For the individual resistor, the current is constant, regardless of any other resister that's attached to it in parallel. The current that results from all the resistors combined decreases as the resistance of one or more of the resistors increases.
No, an ammeter should never be placed in parallel with a component - it should always be placed in series, so that the current through the component is measured.If you place an ammeter in parallel with a component, you create a short circuit around the component. Depending on the rest of the circuit, you could damage the circuit, damage the ammeter, create a fire, etc. You certainly will affect the current through the component, and that is not what you want to accomplish.
Because if there are parallel paths the current can take, the contacts will not shut off or turn on the device.
In a parallel circuit, each branch has its own pathway for current to flow. A switch placed in one branch of the circuit can control the flow of current through that specific branch only, without affecting the other branches. When the switch is closed, it allows current to flow through that branch; when it's open, it blocks the flow of current.
Parallel circuits can have more than one way around the circuit I.e. ______O______ |______O_____| |_____|-______| Series circuits only have one way around the circuit I.e. ______O______ |______|-_____| Key: __ or | = wire O = light |- = battery/cell
An AC wall switch is in series within the parallel circuit of the overall house wiring.
Its a rough decription of non-exact closeness. As an example.. My Mom got nervous that I might damage something when I placed a cup in close proximity to my computer. Derived from "proximate" or "near." Very often misused in sentences as above by saying that a cup was placed close near a computer would be better said "...when I placed a cup too close to my computer." "Close proximity" in a phrase is somewhat redundant and superfluous because "close" implies "near" as well.