How to Connect 2 9V Batteries in Series and Parallel with LED and Switch

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Aim / Objective:

To demonstrate the effect of connecting two 9V batteries in series and parallel on voltage, current, and LED brightness, and to understand how switches control the circuit.

Materials Required:

  • 2 × 9V batteries
  • Battery holders (optional)
  • 1 LED light
  • 1 Switch
  • Connecting wires
  • Resistor (220Ω–470Ω) to protect the LED
  • Breadboard or cardboard base (optional)

Working Principle:

  • Series Connection: Connecting the positive terminal of one battery to the negative of the other increases the total voltage (V_total = V1 + V2 = 18V).
  • Parallel Connection: Connecting positive to positive and negative to negative keeps the voltage the same (9V) but increases current capacity.
  • The LED lights up when the circuit is complete, and the switch controls whether the LED turns ON or OFF.
  • Using a resistor prevents the LED from burning due to excess current.

Procedure:

1. Series Connection:

  1. Connect the positive terminal of the first 9V battery to the negative terminal of the second 9V battery.
  2. Connect the remaining positive and negative terminals to the LED and resistor in series.
  3. Insert a switch in the circuit to control the LED.
  4. Turn ON the switch and observe the LED brightness (it should glow brighter than with a single battery).

2. Parallel Connection:

  1. Connect positive terminals together and negative terminals together.
  2. Connect the LED and resistor in series to the combined positive and negative terminals.
  3. Insert a switch in the circuit.
  4. Turn ON the switch and observe the LED brightness (it should be similar to a single battery, but battery life lasts longer).

Observation:

  • Series Connection: LED glows brighter due to higher voltage (18V).
  • Parallel Connection: LED glows similar to single battery, but the circuit can supply more current for longer time.
  • The switch successfully controls turning the LED ON and OFF in both setups.

Conclusion:

  • Series connection increases voltage, making devices brighter or faster.
  • Parallel connection increases current capacity, allowing devices to last longer.
  • The experiment demonstrates basic circuit connections, battery configurations, and switch operation in a simple LED circuit.

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