What is Cathode Ray Tube (CRT)?
A Cathode Ray Tube (CRT) is a special glass tube that played a big part in J.J. Thomson’s important experiment. This clever device helped scientists understand tiny particles that make up atoms.
Structure of CRT
CRT has a simple structure. It’s a sealed glass tube with two electrodes at each end – one is called the cathode (negative), and the other is the anode (positive). When these electrodes are connected to power, they create an electric field inside the tube. The tube is made empty, like a vacuum, so there’s no air inside.
The vacuum is essential because it lets cathode rays move in a straight line from the cathode to the anode without any interference from air. This controlled setup helps scientists study the behavior of cathode rays in different situations. The CRT is a key tool that led to important discoveries about the tiniest building blocks of matter.
Cathode Ray Experiment
Cathode Ray Experiment, also known as the Crookes tube experiment, is a historically significant experiment in the field of physics that helped scientists understand the nature of electrons. English scientist Sir J.J. Thomson performed an experiment using a Cathode Ray Tube, which led to the discovery of an electron.
In this article, we will discuss this significant experiment, including details of the Cathode Ray Tube, the procedure of the experiment, and J.J. Thomson’s observations, which led to one of the greatest discoveries in the field of science.
Table of Content
- What is the Cathode Ray Experiment?
- What is Cathode Ray Tube (CRT)?
- Experiment Setup
- Applications of Cathode Ray Experiment
- Limitations of the Cathode Ray Experiment