A current checks less resistance path to flow. When one of parallel branches is shorted, it becomes have less resistance and whole the current will flow through it, means current before parallel branches and current after parallel branches becomes same, and all branches become short.
A: precisely
The circuit becomes a pure resistance circuit where current and voltage are in phase with each others.
A television set is a complex group of circuits where we find components in series and others that are in parallel.
Provided that the power supply is reasonably well regulated, the failureor removal of one device in a parallel circuit has no effect on the others.
In a parallel circuit the failure of one bulb reduces the light of that one bulb. In a series circuit the failure of any bulb causes all bulbs to stop producing light because the circuit itself fails. A break in a series circuit stops the current flow to the whole circuit. A break in a parallel circuit stops the flow only in that parallel branch, not the whole circuit. This independence from system loss by one failure is a parallel advantage.
in parallel the voltage stays the same in parallell the current is shared in series the voltage is shared in series the current stays the same the main similarity between parallel and series circuits is when voltage increases, current increases.
In a parallel circuit, each branch operates independently from the others. Adding a switch to one branch of a parallel circuit will only affect that specific branch, allowing you to control the flow of current in that path while the other branches remain unaffected.
No, in a parallel circuit, each branch operates independently of the others. This means that each branch can be turned on or off separately without affecting the other branches.
In a parallel circuit, each component has its own branch and receives the full voltage of the circuit. If one component fails, it does not affect the others. In a series circuit, all components are connected in a line and share the same current. If one component fails, it can disrupt the flow of current to the others.
In a parallel circuit, if one light goes out, the other lights will continue to function normally. This is because each branch in a parallel circuit has its own separate path for current flow, so the failure of one component does not affect the others.
The circuit becomes a pure resistance circuit where current and voltage are in phase with each others.
To connect each object in a circuit to a cell separately, you would use a parallel circuit layout. This setup allows each object to have its own branch connected directly to the cell, ensuring that each object operates independently of the others in the circuit. This way, if one object fails or is removed, the others will continue to function.
because current in parellel divides unlike in series if one fails all will failsAnswerThe parallel circuit's load current doesn't 'divide'. It's the other way around! Each branch draws an individual current which then 'combine' to form the circuit's load current. However, the reason that the remaining lamps connected in parallel always work, even if one fails, is because each branch of a parallel circuit is subjected to a common supply voltage.
A parallel circuit.
A parallel circuit is a type of circuit where loads are connected side by side. In a parallel circuit, each load has its own path to the power source, allowing them to operate independently of each other. If one load in a parallel circuit fails, the others will continue to function.
Outlets in a home are typically part of a parallel circuit. This means each outlet operates independently from the others, allowing multiple devices to be plugged in and powered simultaneously without affecting each other.
If you measure a lower than normal total current in a parallel circuit, it could indicate that one of the branches in the circuit is experiencing higher resistance than the others. This could be due to a faulty component or a poor connection in that branch. It's important to investigate further to identify and address the specific cause of the discrepancy.
A parallel circuit is a type of electrical circuit where components are connected across the same voltage source, providing multiple pathways for current to flow. In a parallel circuit, each component has its own connection to the voltage source, allowing them to operate independently of each other. If one component fails in a parallel circuit, the others can still function properly.