In a series circuits, you simply add the the values of each resistor and that is you answer. i.e. - 200 + 86 + 91 + 180 + 150 = 707 ohms
707
If you add a second resistor, the resistance of series circuit will increase.
The total resistance in a series circuit is determined by adding (summing) the individual resistances of each component in the circuit.
86k. Resistance in series is the sum of the individual resistors.
in a parallel circuit resistance decreases increasing the current.
-- The current in each individual resistor is (voltage across the whole circuit) divided by (the resistance of the individual resistor). -- The current in any individual resistor is less than the total current in the circuit. -- The total current in the circuit is the sum of the currents through each individual resistor.
If you add a second resistor, the resistance of series circuit will increase.
The resistor with the most resistance.
No. The resistance in a series circuit is all the resistor values added together. eg. If two resistors were in a circuit, one was 10 ohms and the other was 30 ohms, the resistance in the circuit would be 30 ohms. Hope this helps!
Equivalent resistance of a series circuit is the sum of the resistance of all appliances. The formula is R=R1+R2+... where R is equivalent resistance, R1, R2 and so on is the resistance of the individual appliances.
The total resistance in a series circuit is determined by adding (summing) the individual resistances of each component in the circuit.
The resistance of a series circuit is simply the sum of the individual resistors.
no
86k. Resistance in series is the sum of the individual resistors.
in a parallel circuit resistance decreases increasing the current.
-- The current in each individual resistor is (voltage across the whole circuit) divided by (the resistance of the individual resistor). -- The current in any individual resistor is less than the total current in the circuit. -- The total current in the circuit is the sum of the currents through each individual resistor.
The current through each resistor is equal to the voltage across it divided by its resistance for series and parallel circuits.
Depends - in the real world as a resistor gets hotter (current flowing through it) its resistance increases.