It divides the current according to the resistances ( inversely proportional) of the devices but the potential difference across each remains the same.
AnswerEach branch draws its own current. The sum of the branch currents will equal the supply current. Adding another branch will act to increase the supply current by the amount of current drawn by the new branch.
It's a mistake to say that the branches 'divide the current', which suggests that the supply current is constant and is then distributed between the branches.
Kirchoffs's current law states that the sum of all the currents flowing out of any point is equal to zero. In other words, the current flowing in is equal to the current flowing out.In the case of a parallel circuit, this means that if a single current branches into two or more parallel branches, then the sum of the currents in the parallel branches must be equal to the original current before it branched.
The current flowing through a series circuit is (voltage between the circuit's ends) / (sum of all resistances in the circuit). The current is the same at every point in the series circuit.
The net resistance can be found out using the algebraic sums f series and parallel connections. When there is no current flowing in the circuit the net resistance is infinite.
A series circuit is a circuit that only has one path for current to flow on, a parallel circuit is a circuit that has multiple paths for current to flow on. Parallel circuits are mostly used, especially in your house/home. The reason of that is because, if a device in a series circuit electrically malfuctions or goes down, it will stop the current flow, thus ending and cuting the whole rest of the circuit. In a Parallel circuit, if a device electrically goes down, current will still be able to flow through the other circuit branches, and the rest of the circuit, thus keeping electricity flowing.
In any series circuit, there is one and only one path for current flow. All the current flowing in the circuit will flow through all of the devices in that circuit. A break at any point in the circuit will cause current flow to cease. Lastly, it is current that is the same at any point in the circuit where we'd care to measure it.
In a parallel circuit, the hypothesis is that when components are connected in parallel, the total current flowing into the junction equals the total current flowing out. Essentially, the hypothesis states that the total current remains constant regardless of the number of parallel paths.
A parallel circuit is different in many ways from a series circuit: 1. In parallel, the voltage across all the devices connected is the same. 2. If a fault occurs in any device connected in parallel combo, then it has no effect on the operation of the other device. 3. In series circuit the current flowing through all the devices is the same while in case of the parallel one the voltage across all the devices is same.
Parallel Parallel
In a parallel circuit, each component has its own separate path for current to flow from the power source. This means that if one component fails, the others can continue to operate independently. The total current flowing into the circuit is equal to the sum of the currents flowing through each individual component.
Current in a series circuit is the same throughout the circuit. Voltages are additive. Voltage in a parallel circuit is the same throughout the circuit. Currents are additive.
In a parallel circuit, the current splits up to flow through different branches. Each branch provides a different path for the current to travel, so the current flowing through each branch can be different based on the resistance of that branch. This is known as Kirchhoff's current law, which states that the total current entering a junction is equal to the total current leaving the junction.
Kirchoffs's current law states that the sum of all the currents flowing out of any point is equal to zero. In other words, the current flowing in is equal to the current flowing out.In the case of a parallel circuit, this means that if a single current branches into two or more parallel branches, then the sum of the currents in the parallel branches must be equal to the original current before it branched.
When a branch of a parallel circuit has an open circuit, it breaks the loop and prevents current from flowing through that particular branch. The other branches of the parallel circuit will continue to operate as normal, as they are unaffected by the open circuit in the specific branch.
The amount of current flowing in each branch of a parallel circuit depends on the resistance of each branch. The branch with less resistance will have more current flowing through it, while the branch with more resistance will have less current flowing. Each branch acts independently because they provide multiple paths for current to flow.
In a parallel circuit, each branch has its own current flow, so there isn't a single device that has the smallest current. The current through each device is determined by its resistance and voltage applied. The device with the highest resistance will have the smallest current flowing through it in a parallel circuit.
in a parallel circuit, current get divided among the parallel branches in a manner so that the product of current and the resistance of each branch becomes same. The sum of the current in each branch is equal to the total current of the circuit.
In a parallel circuit, the current flowing through each branch varies from place to place because the total current splits up and takes different paths. Voltage remains the same across all branches in a parallel circuit.