How to Make Spirals

Spirals in electroculture can be created in various ways, always using metallic materials ranging from copper, aluminum, to simple galvanized iron wire.

Their purpose is to convey and emit etheric energy through their shape. As Ighina stated, solar energy reaches the earth in a spiral with a positive pole, and from the earth, it departs with another spiral towards the sun with a negative sign, thus completing the cycle.

The shape of the spirals

The spirals can be conical or rhomboidal depending on the intended use. They follow the following shapes: golden, logarithmic, Fibonacci. On average, a spiral consists of seven turns, but it's not a fixed rule. I've seen spirals made with different numbers of turns work in the same way. The shell of a snail is formed by 4 turns, that of some hermit crabs has 9, our DNA is formed by two practically infinite opposing spirals, and so on. Nature creates various shapes and coils, so why should we make them only with seven turns?

Materials and Tools

Three things are needed to create a good spiral: a cone, a funnel, a mold, or a simple pencil and a board to wrap metallic wire, aluminum, copper, or galvanized wire. Additionally, a pair of pliers or wire cutters is necessary.

Spiral creation

To create a spiral, a solid hollow cone is generally used, which can be made of resin, preferably of more durable wood. However, it can also be manually crafted, but everything becomes more complicated, especially if we need to make dozens of them.

Simple Spiral

The simple spiral has the shape of a cone and can be made with or without a stick, useful for being inserted into the soil without having to place it directly.

Rhomboidal Spiral

The rhomboidal spiral is formed by two spirals, one upper and one lower. It can be made with a single wire or with two separate spirals, then joined through the wire of the same spirals or through other types of connections, such as a bolt, for example.

The polarity of the spiral for a 'tailored' electroculture

Every type of metal has its own polarity. Many overlook this detail, but it is important if you want to do a "tailored" job for the correct creation and installation of spirals on plants.

As mentioned in the introduction of this article, solar energy arrives with a positive pole and exits the ground with a negative pole. It is correct to follow this polarity even for the creation of spirals, which should have the top part positive and the bottom part negative, to maximize benefits and avoid potential conflicts in terms of energy. To avoid mistakes, tools provided by dowsing such as a pendulum, dowsing rods, and especially the biotensor, are used. We can directly measure the polarity of the wire used, without having to perform this operation on each individual spiral once created.

Below, we have included an image of a spool where the gold-colored aluminum wire has a positive polarity at the tip and negative polarity at the back where it will be cut. Once the wire is cut, the tip will follow the same pattern, positive at the head, negative at the end, without any change.

Of course, the polarity of each spool can be different; it may have a negative polarity at the tip and positive polarity at the cutting point, depending on how the wire was wound during packaging.