 Physics Partner, the YouTube channel for physics. Please subscribe my channel. Hello and welcome back to another episode of Physics Partner. Today we have an enthralling topic lined up that will take us through the captivating journey of the Teltron Tube. To truly appreciate the Teltron Tube, we need to rewind to its origins developed in the early 20th century by physicists Julius Elster and hence Geitel. This remarkable device revolutionized the study of electrons. The Teltron Tube, an evacuated glass tube containing a cathode and anode paved the way for unprecedented discoveries in the field of particle physics. Now let's explore the immense importance of the Teltron Tube. Its primary objective was to investigate the behavior of electrons in various conditions. Scientists use it to discover the nature of electrical field, study the deflection of electrons by magnetic fields and exploring the fascinating phenomena of electron diffraction. The Teltron Tube is a type of cathode ray tube used to demonstrate the properties of electrons and their behavior in electric and magnetic fields. It consists of a glass bulb containing a gas. For example, molecular hydrogen that is ionized to produce a beam of electrons. The tube also contains a pair of Helmholtz coils which generate a uniform magnetic field perpendicular to the direction of the electron beam. When a voltage is applied across the two electrodes located at either end of the tube, the electrons are accelerated toward the anode end of the tube, producing a beam of electrons. The electrons travel along the axis of the tube and are deflected by the magnetic field generated by the Helmholtz coils. By varying the strength of magnetic field and the accelerating voltage, the properties of electrons can be studied. Let's talk about the astonishing findings and breakthroughs. Unsurprisingly, Teltron Tube experiment led to mind-boggling findings and groundbreaking breakthroughs. Scientists unraveled the fundamental properties of electrons unveiling how they can behave both as particles and waves, solidifying the foundation of quantum mechanics. Revolutionary concepts like electron spin, wave particle duality and electron diffraction patterns come to light, shaping the very fabric of our understanding of the microscopic world. Let's talk about applications in sciences. The Teltron tube's impact extends far beyond the realm of the experiments. Its incredible findings have led to remarkable applications in various scientific fields. From electronic devices to material science, the Teltron tube has played a pivotal role in advancing technology. Engineers use its principles to design electron gun systems for cathode ray tubes, particle accelerators, electron microscopes and cutting edge medical imaging technologies like CAT scans and PET scans. In conclusion, the Teltron tube has left an incredible mark on the scientific community, enabling us to unlock the mysteries of the electron, its rich history, profound experiments, astonishing findings and diverse applications have shaped our understanding of the subatomic world and paved the way for countless technological advancements. 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 questions, queries, suggestions and even classes are required. Take care of yourself. Meanwhile, see you in the next video. Goodbye.