SIMPLE CIRCUITS
Throughout this lab, keep the circuit closed only
long enough to, observe the necessary data.
Never
connect the DMM in Current Mode in Parallel with any Resistor or Battery!
In this laboratory you will study
simple circuits by measuring the current through and voltage across several
circuits that consist of batteries and resistors. Measurements will be
made using a digital multi-meter (DMM). As its name implies, it can
measure voltage, current or resistance. For the Tenma 72-1020 DMM, there
are different connections to be made before making a measurement.
Incorrect connection in ohms or dc mA mode can cause a fuse to blow in the meter
- which might end your experimentation for the day, so please be careful to be
in the proper mode before making a measurement.
The wires for this laboratory have
'alligator clips' on the end that allow the circuits to be easily connected or
disconnected. To prevent discharging your batteries or excessive heat in
the resistors, leave one of the clips disconnected until you are ready to
perform a measurement. If, at any time, you are in doubt, please ask your
instructor. The steps for obtaining your data, along with tasks and
questions to be answered, follow.
- Set the Tenma 71-1020 DMM to measure
resistance using the ohms (W)
mode as shown in the linked figure. Then, measure the resistance of
each of your three
resistors using the DMM.
- Decide which resistor is to be R1, R2 and R3, and then use them
as such throughout the lab. The first data in your notebook should be a
table listing the name of the resistor and its measured value.
- Connect the circuit shown below - use wires for
A, B and C. That way you can remove a wire to insert the ammeter when you want
to measure the current through that wire.
- Set the Tenma to measure DC milliAmperes as
shown in the linked figure.
- Measure and record in a table the current at
the points labeled A, B, and C. (click for generic pictorials of how to measure
the current at points
A and
B.)
How would you expect the three values to
compare? Explain.
- Set the Tenma to measure DC Volts as shown in
the linked figure.
- Measure the potential difference across each resistor and then the
potential across the two resistors together.
- Calculate the percentage difference between
the sum of the individual voltage drops and that of the total.
- Show from the data. that
the voltage is directly proportional to the resistance, when the current is constant.
(i.e. compare V1 / V2 to R1/R2)
- Connect the circuit shown, below.
- Place the Tenma in current mode and measure the currents I,
I1 and I2.
- Compare the total current, I, with the sum of I1 and I2.
- Show from the observed
data that the two currents vary inversely with the corresponding resistances.
- Place the Tenma in voltage mode and measure the
voltage across the battery and then measure the voltage across each resistor.
- How do the voltages
compare?
Connect the circuit shown below.
- Place the Tenma in voltage mode and measure the potential
difference between points A and C, Vac.
- Calculate the current in each resistor
(indicated by the arrowheads). This is like a homework problem. Your
measured values for Vac, R1, R2, and R3
are your 'knowns' and, the currents are your 'unknowns'. Use Kirchhoff's
loop rules or repeated simplification to solve. Show your work in your
notebook. Complete this step before proceeding to step 18.
- Place the Tenma in current mode and measure the three current values.
- Compare your calculated currents to your experimental currents.
Using what you have now learned about series and parallel
combinations of resistances predict the relative brightness of each of the bulbs in the
circuit below. Assume all of the bulbs are identical. Explain
your reasoning. Set up the circuit to check your predictions. If you
cannot see a glow from bulbs 'b' and 'c' try using two cells in series.
For each of the circuits below, predict the
brightness of each bulb, with the switches open, as shown. Then predict how each bulb will
change in brightness when the switch is closed. Support your answers with explanations.
Set up the circuit and check your predictions. If you cannot see a glow
from bulbs that you expect to glow, try using two cells in series. If a
lamp is overly bright, disconnect the battery quickly - before the lamp burns
out.
- last modified 4 April, 2018
- Copyright B. E. Taylor