Experiment #4: parallel pipes – Elenco Electronic Playground 50-in-1 Experiments User Manual

Page 13

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Connect the wires according to the Wiring Checklist.
Take a look at the schematic. There is a low 3.3K

resistor and a high 100K

Ω resistor in parallel (connected

between the same points in the circuit). How bright do
you think the LED will be? Press the switch and see if
you are right. The LED is bright, so most of the current
must be flowing through the smaller 3.3K

Ω resistor. This

makes perfect sense when we look at the water diagram,
with most of the water flowing through the pipe with less
rocks. In general, the more water pipes (or resistors)
there are in parallel, the lower the total resistance is
and the more water (or current) will flow. The relationship
is more complicated than for resistors in series and is
given here for advanced students:

Parallel

For two 10K

Ω resistors in parallel, the result would be

Ω. The 3.3KΩ and 100KΩ in parallel in our circuit now

give the same LED brightness as a single 3.2K

Ω resistor.

To demonstrate this, disconnect the wires from the
100K

Ω resistor and connect them to the 10KΩ; press the

switch and the LED should be just as bright. The total
resistance is now only 2.5K

Ω, but your eyes probably

won’t notice much difference in LED brightness. Now
disconnect the wires from the 10K

Ω and connect them to

the 1K

Ω; press the switch. The total resistance is now

only 770

Ω, so the LED should now be much brighter.

EXPERIMENT #4: Parallel Pipes

x R

+ R

Wiring Checklist:

o 27-to-56

o 55-to-52-to-43 (this will take 2 wires)

o 51-to-42-to-3 (2 wires)

o 4-to-26

Water Diagram

On/Off

Valve

Water

Meter

Rocks

Pump

Schematic

Rocks