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How is a parallel circuit different from a series circuiti?
Parallel Circuit: * Voltage at Each junction is same * Current through each branch will be different. It depends on the resistance of the components used. Series circuit: * Voltage drop at the ends of different components will be different. * Current through each component will be the same.
What is the difference between parelllel and series circuit?
A parallel circuit has the same voltage but different current in each leg and series circuit has the same current but different voltage on each components unless the same value.
What causes varying light bulb intensities on same circuit?
For a series circuit... Each bulb has different impedance (ohms) resulting in a different voltage drop across each. Remember Kirchoff's Current Law: The current at each point in a series circuit is the same. That same current, multiplied by the different voltage drops results in different powers (watts = amps * volts) for each bulb. For a parallel circuit. Again, each bulb still has different impedance. This time, the voltage drop is the same (Kirchoff's Voltage Law) but the current in each bulb is different. Same situation - different power in each bulb.
Can there be a different voltage across each component in a circuit?
Yes, if it is a series circuit. In an ideal parallel circuit, there is equal voltage in each leg. In a real circuit, results may vary if there is voltage loss in the wiring.
How parallel and series circuit different?
In a series circuit, current has to pass through each part of the circuit. In a parallel circuit, the current has several alternative paths.
What happens as a current flows through a parallel circuit?
if the circuit is a series circuit (all loads wired in a single line , one after the other ) then the current will be the same in any part of the circuit . if there are several different paths for the current to take , then each path will carry a different percentage of the total current . when each of these different current values are added together , they will equal the total supplied current.
What is the difference between series circuit and a parallel circuit?
For parallel circuit , each & every component shares 2 common connections . But for series circuit , each of them share 1 common connection .In electrical , each component has their own amount of current flowing through ( depending on the resistance of each ) and sharing the same voltage drop for parallel circuit . In case of series circuit , each component shares the same amount of current with each other & the voltage drop across each of them is different ( depending on their resistance ) .
What is the code for a 1994 Honda Civic Ex anti-theft radio?
each radio has a different code. ur code should be on a card in the owners manual each radio has a different code. ur code should be on a card in the owners manual each radio has a different code. ur code should be on a card in the owners manual
What is the difference a series circuit and a parallel?
For parallel circuit , each & every component shares 2 common connections . But for series circuit , each of them share 1 common connection .In electrical , each component has their own amount of current flowing through ( depending on the resistance of each ) and sharing the same voltage drop for parallel circuit . In case of series circuit , each component shares the same amount of current with each other & the voltage drop across each of them is different ( depending on their resistance ) .
What do all the numbers on the fuse box of your 96 vw cabrio mean?
In your owners manual the numbers will tell you what circuit each fuse protects.
What type of circuit is Current flow through each load will be different if the load resistance are different?
You are correct. What exactly is your question?
How many paths in a Parallel circuit?
In a parallel circuit, there are multiple paths for current to flow. Each branch of the circuit provides a separate path for current to travel from the source to the load. This allows for different components in the circuit to operate independently of each other.
