RC Unit 3: Demo - Cathode Ray Tube

William Kane

4 Sept 201201:00

Summary

TLDRThis script describes an experiment with a cathode ray tube, which is a vacuum tube. When an electric current is applied, a beam moves across the tube. Using a magnet, the beam deflects, indicating it's not light but a particle. J.J. Thomson's conclusion was that these particles are negatively charged atoms, based on the repulsion from the negative end of the magnet.

Takeaways

📺 The device being discussed is a cathode ray tube, which is essentially a vacuum tube.
💨 Inside the tube, there is nothing but a vacuum; no air or particles exist inside.
⚡ It's called a cathode ray tube because it has a cathode and an anode, which are essential components for creating the ray.
🔋 When an electric current is applied, a visible beam appears inside the tube.
🌟 This beam might appear to be light, but it's not actually light.
🧲 The beam deflects when exposed to a magnet, indicating it's not a simple light beam.
📉 The deflection demonstrates that the particles making up the beam are charged.
🧪 J.J. Thomson concluded that what he was observing was a small piece of an atom flying from the cathode to the anode.
🧲 The deflection by the negative end of the magnet shows that the particles in the beam are negatively charged.
🔬 These negatively charged particles were later identified as electrons, a key discovery in atomic physics.

Q & A

What is a cathode ray tube?
-A cathode ray tube (CRT) is a vacuum tube that contains an electron gun and a phosphorescent screen, used to display images in older television sets and computer monitors.
Why is it called a cathode ray tube?
-It is called a cathode ray tube because it contains a cathode (negative electrode) from which electrons are emitted, forming a beam of electrons.
What is the purpose of the anode in a cathode ray tube?
-The anode in a cathode ray tube is a positive electrode that helps to accelerate the electron beam towards the phosphorescent screen.
What happens when a cathode ray tube is connected to an electric current?
-When connected to an electric current, electrons are emitted from the cathode and accelerated towards the anode, creating a visible beam on the phosphorescent screen.
Why does a magnet affect the beam in a cathode ray tube?
-A magnet affects the beam because the beam consists of charged particles (electrons), which are deflected by the magnetic field.
What does the deflection of the beam by a magnet indicate about the nature of the particles in the beam?
-The deflection of the beam by a magnet indicates that the particles in the beam are charged, as they are affected by the magnetic field.
Who was J.J. Thomson and what did he conclude from his experiments with cathode rays?
-J.J. Thomson was a British physicist who, through his experiments with cathode rays, concluded that they were composed of negatively charged particles, which he called 'corpuscles' and are now known as electrons.
How did J.J. Thomson determine the charge of the particles in the cathode ray?
-Thomson determined the charge of the particles by observing the direction of deflection when a magnet was applied and knowing that like charges repel each other.
What was the significance of J.J. Thomson's discovery regarding the cathode ray?
-Thomson's discovery was significant because it provided evidence for the existence of subatomic particles and led to the development of the 'plum pudding' model of the atom.
What is the relationship between the cathode ray and the atom?
-The cathode ray consists of electrons, which are subatomic particles that are part of the atom's structure. Thomson's experiments showed that electrons could be separated from the atom.
How does the behavior of the cathode ray in a magnetic field relate to the behavior of electrons in an atom?
-The behavior of the cathode ray in a magnetic field is analogous to the behavior of electrons in an atom, as both are negatively charged and can be influenced by magnetic fields.