Looking through the past, electrostatics was the basis on which electrical engineering as a science was built and developed, and it was Nikola Tesla who gave his exceptional importance to it.

With numerous experiments, together we will find answers to the following questions:

Can a paper note get wings?

Can a glass beaker placed on a "spike" be rotated without any contact?

Can a joined metal spoon and fork be turned on a "spike" without any contact?

How to block a call signal on a mobile phone without turning it off?

How can bodies be charged and why are some charged bodies attracted and others repelled?

How is an electric current created and how does an electric field work?

How do charges move in a conductor?

How can high voltages over 50000V be achieved?

Why does a ping pong ball move between two boards without ever touching?

What is a Faraday cage and what role can it play in everyday life?

How do atmospheric phenomena such as lightning occur and how is it possible to prevent a lightning strike and the burning of objects?

How does Tesla's AC generator work and how is electricity produced and transmitted?

Is the "wireless transmission of energy" possible according to Tesla's idea, and can light bulbs and gas pipes be lit at a distance and work without the use of conductors?