Luigi Aloisio Galvani was an Italian physician, physicist, biologist and philosopher, who discovered animal electricity. He is recognized as the pioneer of bioelectromagnetics. In 1780, he discovered that the muscles of dead frogs' legs twitched when struck by an electrical spark. This was one of the first forays into the study of bioelectricity, a field that still studies the electrical patterns and signals from tissues such as the nerves and muscles. In recognition of Galvani’s work the term “galvanize” was used to define stimulation caused by electric current.
The "electricity" which flows through human bodies is a charge, but it's not electrons. Instead it's charged particles: potassium ions, sodium ions, chloride, etc. Since these particles are always inside our bodies, we can't say that "electricity" is dangerous. Instead, it is the FLOW of charges which causes problems. Think like this: human beings are partly composed of movable "electricity" or charges, but these charges normally don't move very much. If something makes them move, abnormal things can happen. When someone gets a shock from touching wires, electricity WAS NOT put into their body from outside. Instead, the electric voltage on the wires pushed upon the charges already inside their body, which then moved forward, causing an electric current to appear inside.
This cache is placed with the permission of the owner just onto private property. The owners ask that you please DO NOT wander on the grounds of this business as special events are in progress daily.
Once you locate the cache, look through the peep hole on the front of the box as you firmly touch the electrodes on each side of the box with one finger of each hand. When you touch the two correct electrodes you will see three flashing lights through the peep hole. Take notice of the color of the top, middle and bottom lights to solve the lock combination below and access the log. While the cache may look ominous, it is both child and squeamish adult friendly.
Lock combination:
First tumbler digit: How many letters in the top color?
Second tumbler digit: How many letters in the middle color?
Third tumbler digit: How many letters in the bottom color?
Fourth tumbler digit: How many letters in the top color plus the bottom color?