what is the Properties of cathode ray full explanation ??
Answers
Answered by
11
01 DEFINITION
Properties of Cathode rays
1. Cathode rays travel in straight lines. That is why, cathode rays cast shadow of any solid object placed in their path. The path cathode rays travel is not affected by the position of the anode.
2. Cathode rays consist of matter particles, and posses energy by the virtue of its mass and velocity. Cathode rays set a paddle wheel into motion when it is placed in the path of these rays one the bladder of the paddle wheel.
3. Cathode rays consist of negatively charged particles. When cathode rays are subjected to an electrical field, these get deflected towards the positively charge plate(Anode).
4. Cathode rays heat the object only which they fall. The cathode ray particles possess kinetic energy. When these particles strike an object, a part of the kinetic energy is transferred to the object. The causes a rise in the temperature of the object.
5. Cathode rays cause green fluorescence on glass surface, i.e., the glass surface only which the cathode rays strike show a colored shine.
6. Cathode rays can penetrate through thin metallic sheets.
7. Cathode rays ionize the gases through which they travel.
02 DEFINITION
Discovery of electron by J.J. Thomson
In 1878 William Crooks carried out discharge tube experiments and discovered new radiations and called them cathode rays. Since these rays travel from the cathode towards anode. Later, J.J Thomson studied the characteristics of cathode rays and concluded that cathode rays are negatively charged particles, now called electrons. The name electron was given by Johnson Stoney.
Answered by
8
Here is your answer-
They travel in straight lines from the negative pole (cathode).They produce fluorescence in the glass walls of the discharge tube.They cast shadows if some target is placed in their path.They can produce mechanical motion, e.g., they cause a light pedal wheel placed in their path to rotate.They possess heating effect and can heat thin metal filaments to incandescence.They are deflected from their rectilinear path by electrostatic and magnetic fields and behave in the manner of a stream of negatively charged particles.They can impart negative charge to objects in their paths.They can cause ionization in gases.
Hope it helps.
They travel in straight lines from the negative pole (cathode).They produce fluorescence in the glass walls of the discharge tube.They cast shadows if some target is placed in their path.They can produce mechanical motion, e.g., they cause a light pedal wheel placed in their path to rotate.They possess heating effect and can heat thin metal filaments to incandescence.They are deflected from their rectilinear path by electrostatic and magnetic fields and behave in the manner of a stream of negatively charged particles.They can impart negative charge to objects in their paths.They can cause ionization in gases.
Hope it helps.
Similar questions