The basic illustration of lenz law is easily arranged with an electric motor, a switch, an inductor and a DC battery. The electric motor is used to move the switch, which is placed in the circuit in Figure 1. When the switch is turned on, the electric motor turns on, thus supplying the DC voltage needed for the induction coil to turn, creating the inductive flow.
To demonstrate the basic function of the Law of Lenz, you have to make a connection between a DC battery and a switch. Then, when the switch is turned on, the electric motor turns on, thus supplying the DC voltage needed by the induction coil.
Now, to create the electric flow in the motor, you have to insert a probe that has a variable resistance in its body into the inductive coil. This is because a single variable resistance will cause an alternating current to be produced, but it will not last long enough to use up the battery. Now, when you make the motion of the electric motor, the current will increase, thereby increasing the resistance and increasing the speed of the motor. When the switch turned on, the inductive flow will be increased, thus creating the alternating current needed by the induction coil.
In the same way, when the switch was turned off, the electric motor will decrease the resistance, thus decreasing the inductive flow. This will continue until the inductive flow is equal to the DC resistance of the body to probe, or the inductive flow is completely blocked by the body probe itself.
If you are interested in this motor, you can find some great kits online. These kits provide a detailed guide on how to build this motor, lenz law, & including videos. If you are very handy with tools, you can also make the motor yourself. Just make sure that you do it right and that you follow the instructions closely to avoid having any accidents.
When building your own motor, you need to pay special attention to the inductor winding, because you can damage your motor if you do not do it correctly. The motor should be run for at least 20 minutes at a time. If you want to use it permanently, then you can go for a motor that can stand alone. but the installation process may take some time.
You may even be wondering how to test your motor. There are a few ways that you can do this. You can use a wire tester, which helps detect the voltage of each wire, then you can test each wire individually by connecting it to the power source and observing its resistance.
Lastly, if you are using a DC motor, you can use an Ohm meter to check the resistance that the power source offers, while you use a circuit tester to measure the amount of voltage that is required by the motor, which is measured at the inductive end. Of course, you can always use both techniques to check your motor properly.