An electrical current is a flow of charge through a circuit. In a series circuit there is only one path for the charge to flow through; therefore, (in a DC circuit) the same charge must pass through every point in the circuit.
It's not quite the same as flow in a water pipe. In a water pipe if you increase the flow of water at the intake end it will take some time for that increased flow to makes it way to the output of the water pipe. In an electrical conductor, changes are effectively instantaneous. As soon as you change the input flow the output flow changes too, and that implies that the flow at all points in between the input and the output have to be the same.
Once you see that please remember that this is the 'ideal'. The situation becomes considerably more complicated once you started learning about other circuit elements.
The current remains constant in series becoz there is no another path for current to flow.
Current flow remains the same throughout the circuit.
it remains same i=voltage/total resistance
A: In a series circuit the current remains the same for each components only the voltage across each component will change and only if the components are of different value.
In a series circuit, components (such as resistors, bulbs, or other devices) are connected end-to-end so that there is only one path for the current to flow. Because there is only one pathway for the current, the same current passes through each component in the circuit. This principle is derived from the conservation of electric charge. Since charge cannot accumulate or disappear in a closed circuit, the current that enters a component must be equal to the current that exits that component. In other words, the flow of current is continuous and consistent throughout the series circuit. Mathematically, this can be expressed as: I_total = I_1 = I_2 = I_3 = ... = I_n Where: I_total is the total current entering the series circuit. I_1, I_2, I_3, ..., I_n are the currents through each individual component in the circuit. It's important to note that while the current remains the same throughout a series circuit, the voltage (potential difference) across each component can vary depending on its resistance or impedance, according to Ohm's Law (V = I * R).
A: No matter how many resistor of different value are inserted the current will remain the same for each. The voltage drop will vary with the difference in resistors and i a parallel path is found along the way the current will divide according to the resistors values
current remains same in series while divide itself in parallel circuit
Current flow remains the same throughout the circuit.
In a series circuit the current remains the same throughout the circuit. This is not the case for parallel circuits.
A: In series circuit the current remains the same no matter how many components are in series. just the voltage will change to reflect different voltage drops for each.
A: Current remains the same on a series circuit. A: Current will divide on a parallel circuit for each branch according to the existing resistance
current in series depends on values of resistors. more resistance less current will flow through and viceversa
it remains same i=voltage/total resistance
A: In a series circuit the current remains the same In a parallel circuit the current may divide to satisfy the branches of the loads,
By Kirchoff's current law, a series circuit has the same current everywhere.
A: In a series circuit the current remains the same for each components only the voltage across each component will change and only if the components are of different value.
A: If put in series current will decrease if put in parallel current will increase assuming the input voltage remains the same
the current in series will be same..