the most convenient solution is to use the laplace transform, connecting it in series makes a current loop in kvl, where the summation of e (the supply) equals the voltage in resistor, inductor and capaitor,, using differential ang integral, we can create a formula of function... to simplify use the laplace transform, then inverse laplace transform... after the action completed, you will now have a pronounced equation for current as a function of time
By Kirchoff's current law, a series circuit has the same current everywhere.
In circuit analysis, there is steady state and transient conditions. transient conditions are how the circuit acts immediately following some action (such as turning on power, closing a switch, losing power, etc.). Steady state conditions is everything else.
Current = (Voltage across the circuit) divided by (Total resistance of the circuit). The current is the same at every point in the series circuit.
In a series circuit current does stay the same thoughout the circuit, voltage drops in the series circuit.
If the track of the current is broken in a series circuit, the circuit will be interrupted and no current will flow. The components in the circuit will not receive any power and will not function until the circuit is repaired.
the current in series will be same..
A circuit that has only one path for the current is called a series circuit. In a series circuit, the components are connected end-to-end, creating a single pathway for the flow of electricity. This means that the current passing through each component is the same, making series circuits useful for applications where a consistent current is needed.
In a series circuit the current remains the same throughout the circuit. This is not the case for parallel circuits.
Current in a series circuit travels in one path. This is because a series circuit is only one path. current in a series circuit stays the same thoughout the circuit this means that if in the beginning of the circuit there are 2 amps of current there will be the same ammount of current in the middle and in the end of it. if you don't understand this please tell me and ill explain in a better way.
In a series circuit, current has to pass through each part of the circuit. In a parallel circuit, the current has several alternative paths.
In a series circuit, the current remains constant throughout the circuit. The voltage across each component in a series circuit adds up to the total voltage of the circuit.
current remains same in series while divide itself in parallel circuit