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Multimeter 

Connect the positive terminal wire of the generator to the red wire of the multimeter 
and connect the negative terminal wire to the black wire of the multimeter. Set the 
multimeter to measure DC voltage at the lowest setting.  The number shown on the 
multimeter is the amount of electrical potential, measured in volts, that the turbine 
generates. The energy being produced is proportional to the voltage. If there is no 
reading, shift the setting to the next higher voltage setting. Keep doing this, as 
needed, until you get a voltage reading. 
 

Determine Polarity

 

To determine the proper polarity of the turbine, connect it to a voltage probe, Vernier 
Energy Sensor, KidWind Power Output Board, or a multimeter. If the voltage 
reading is positive, the lead connected to the red voltage probe wire, red Energy 
Sensor terminal or red multimeter wire comes from the positive terminal. If the 
voltage reading is negative, the lead connected to the red voltage probe wire, red 
Energy Sensor terminal, or red multimeter wire comes from the negative terminal.  
When using the Power Output Board, a small LED marked “reverse polarity" will 
light if the wires are connected with the positive generator wire attached to the 
negative terminal and the negative generator wire hooked up to the positive terminal. 
It is a good idea to mark the wires with tape so you know which is positive and 
which is negative. 
 
 

 

How much electricity do various devices require? 

 

LEDs require at least 1.6 volts to light. Polarity is important with LEDs, so if it is 
not working, try reversing the LED connections. 

 

Small DC motors need 0.6–0.8 volts. 

 

 

Lifting weight with wind energy 

Lifting weights with the wind turbine is another great way to explore wind energy. 
Convert the Basic Wind Experiment Kit to a weightlifting turbine. 
1.  Tie the string to the spool, taping it down so it does not slide. Add one hex lock to 

each end of the spool, pressing them into the spindle hole. 

2.  Affix the plastic bucket to the other end of the string, using the holes pre-drilled 

in the bucket. 

3.  Remove the 32-tooth gear from the hex shaft. Push the spool onto the hex shaft. 


See construction video online 

For help with assembly, watch a short video at 

www.vernier.com/kw-bwx

 

 

Experiment Ideas 

Your Basic Wind Experiment Kit allows you to perform many different experiments 
with wind energy. Here are two ideas to get you started: 

Experiment with the blade pitch 

When the blades are flat against the wind (0°), the air will push the blades in the 
same direction as the wind. This results in a minimum transfer of energy from the 
moving air. When the blades are at 90°, there is no push at all from the moving air, 

since the wind flows past the blades instead of pushing on their surface. Between 
these two extremes, some of the force pushes each blade sideways while some force 
pushes them backwards.  
Experimentally determine what pitch angle lights the LED the brightest or generates 
the most energy, or lifts the most weight. Use the same wind speed for the entire 
experiment. 

Experiment with the number of blades 

For this experiment it is very important to keep the pitch of the blades constant. It 
can be easier to start with one or two blades and then increase and record power 
output as more blades are added. 
When testing the number of blades on the weightlifter, one strategy is to keep the 
weight constant while altering the blade number. Then measure the time it takes to 
lift the weight to determine which blade setup produces the most power. The faster it 
lifts the weights the more power generated. 
 

Troubleshooting 

 

The turbine does not spin when I put my turbine in front of the fan 

Make sure all the blades have their pitch oriented in the same direction and are not 
“flat” to the wind. Make sure the blades are not in contact with something that is 
preventing them from moving.  

The turbine slows down when I attach it to a load (resistor, pump, bulb, motor, 
etc.) 

This is expected. Electrical loads all have some resistance. Resistance makes it 
harder to push electrons through the circuit, which means it is harder for the 
generator to turn. 

The voltage readings keep changing 

Some fluctuation is normal. Here are some things you can work on to reduce the 
variability of the voltage measurement: 

 

Make sure the blades are not changing shape as they spin. You may need to use a 
stiffer blade material. 

 

The wind produced by the fan may be fluctuating. 

 

Your blades may be unbalanced, unevenly distributed, or producing unequal 
amounts of drag. 

 

The readings on my multimeter are negative 

The meter is reading the polarity of the wires. As your turbine spins in one direction 
one wire will be the positive lead and the other wire will be the negative lead. If you 
spin your turbine the other direction the polarity of the wires will be reversed. For 
LEDs and Fuel Cells hooking up the correct polarity matters—on other items the 
polarity is not critical. 
If you prefer not to have negative values, reverse the wires relative to your 
measuring device. 

Based on the power in the wind equation, longer blades should generate more 
power but mine generate less power. 

The blades on your turbine may be bigger than the diameter of the fan. If that is the 
case, the extra length is only adding drag so the blades will slow down. Additionally, 

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