i want the details regarding the branch circuits
explain the need for circuit protection
Kirchoff's voltage law: In a series circuit, the signed sum of the voltage drops around the circuit add up to zero. Since a parallel circuit (just the two components of the parallel circuit) also represents a series circuit, this means that the voltage across two elements in parallel must be the same.Kirchoff's current law: The signed sum of the currents entering a node is zero. In a series circuit, this means that the current at every point in that circuit is equal. In a parallel circuit, the currents entering that portion of the circuit divide, but the sum of those divided currents is equal to the current supplying them.
No, they do not. Think of it this way. Your house is one huge parallel circuit. Not every branch is on all the time. You turn switches on and off to turn individual branches on and off at will.
As they are connected in parallel (each has its own branch) the remaining bulbs keep shining exactly as they did before.
This project will require a parallel circuit, not a series circuit.
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.
In a DC circuit, it's the branch with the largest resistance. In an AC circuit, it's the branch with the largest magnitude of impedance.
The resistance of the component on that branch of the circuit, if the resistance is higher less of a proportion of the total current of the circuit will travel through that branch, however, if the resistance is low a higher proportion of the current will travel through that branch of the circuit. The voltage through each branch stays the same.
The resistance of the component on that branch of the circuit, if the resistance is higher less of a proportion of the total current of the circuit will travel through that branch, however, if the resistance is low a higher proportion of the current will travel through that branch of the circuit. The voltage through each branch stays the same.
yes
In a parallel circuit, the voltage across each branch is the same.
The resistance of the component on that branch of the circuit, if the resistance is higher less of a proportion of the total current of the circuit will travel through that branch, however, if the resistance is low a higher proportion of the current will travel through that branch of the circuit. The voltage through each branch stays the same.
Yes, a branch point in a parallel circuit is where the current divides and flows through the different branches of the circuit. Each branch will have its own current value depending on the resistance of that particular branch.
mechanical
Yes, in the United States, one branch circuit can serve two bedrooms.
A parallel circuit has more than one current branch. In a parallel circuit, the components are connected in separate paths to the voltage source, allowing for multiple current paths and different current levels through each branch.
Yes, the total power dissipated through the circuit is equal to the sum of the power of each branch in a parallel circuit.