 Hello and welcome back to another episode of physics partner in today's modern world firefighting systems have become increasingly advanced and efficient. However, did you know that the basic idea behind the system can be traced back to an ancient invention. Let's discover how this innovative idea have influenced and shaped the firefighting system we rely on today. Today we have an incredible topic that bridges the ancient world to modern science, the physics behind the tassibius fire engine. The story begins in ancient Alexandra during the third century BC where the marvelous engineer tassibius turned dreams into reality. He designed a revolutionary firefighting device that operated on air pressure the tassibius fire engine. This machine consisted of a bronze cylinder filled with water connected to a pump and a long tube. By compressing air into the cylinder pressure would build forcing the water through the tube like a modern day fire hose. Let's unravel the amazing physics behind the tassibius fire engine by employing principles of pneumatics. Tassibius harness the power of compressed air to exert force on the water. As the air was compressed it particles become densely packed increasing the pressure inside the cylinder. This pressure pushed against the water propelling it with tremendous velocity out of the tube. It is truly fascinating how such a simple concept can generate such as enormous force. Apart from its historical significance the tassibius fire engine holds paramount importance in the development of firefighting techniques. During a time when devastating fires posed significant threats this innovation allowed for more efficient extinguishing of flames protecting lives and property. Furthermore it laid the foundation for future inventions in hydraulic and pneumatic machinery setting the stage for endless possibilities in the field of engineering. Surprisingly the concept behind the tassibius fire engine still finds application in contemporary society although the device itself no longer used it principled have influenced the design and functionality of modern fire hydrants and firefighting equipment. Additionally the understanding of compressed air and its properties is crucial in various fields such as pneumatics scuba diving and even space exploration. So let's complete our journey on the riveting physics behind the tassibius fire engine whether it's captivating history great importance and enduring applications. So i think it's enough for today so thank you very much for listening and watching i hope you enjoyed the video i hope this video is useful for you so take care of yourself and don't hesitate to write an email if you have any question curies suggestion and even classes are required take care of yourself meanwhile see you in the next video goodbye