Beta particles can be electrons (beta-) or positrons (beta+), along with electron antineutrinos (beta-) or electron neutrinos (beta+). Cathode ray particles are just electrons.
Since neutrinos have no charge, they do not interact well with matter. As a result, the electrons from beta- decay are nearly indistinguishable from the electrons in cathode rays, with the possible exception of their velocity.
Beta particles are either electrons or positrons. Since both electrons and positrons have a spin of 1/2, there is no difference between the spins of beta particles and electrons.
IN the so-called "beta decay", an atom will emit either electrons, or anti-electrons (positrons), but the most common case is that it simply emits electrons.
No, a cathode ray tube consists of a stream of electrons.
The cathode ray is a stream of electrons.
JJ Thomson discovered electrons using a cathode ray tube.
J.J.Thomas discovered that atoms have negatively charged particles called electrons. He discovered this using the Cathode Ray. The cathode ray is a beam of electrons emitted by the cathode of an electrical discharged tube.
J. J. Thomson discovered the electron using an experiment involving cathode rays and a magnetic field. When subjected to the magnetic field, the cathode ray was deflected. If the magnetic field was flipped, the cathode ray was deflected in the opposite direction. This proved that a cathode ray was a stream of negatively charged particles that would later be deemed electrons.
homson conducted a series of experiments with cathode rays and cathode ray tubes leading him to the discovery of electrons and subatomic particles. Thomson used the cathode ray tube in three different experiments.
Those are electrons.
In a cathode ray tube (CRT), the particles, which are electrons, originate at the heated cathode, becoming the so-called cathode rays. The electrons stream off the cathode and rush over to the anode.
No, a cathode ray tube consists of a stream of electrons.
The cathode ray is a stream of electrons.
The particles originate from the Cathode in the neck of the tube. They are liberated by a heater. The electrons thus liberated are attracted by the Anode, by applying a high voltage to it. In a CRT there are several anodes, the largest and biggest is formed by a coating inside the tube towards the screen. This attracts and accelerates the electrons in a stream of particles known as a 'cathode ray'. They carry on in a straight line, once accelerated, until they hit the screen and cause a phosphor coating to glow, on the inside surface of the screen. The cathode ray can be bent from it's course, by using electromagnets arranged around the neck of the tube.
from his cathode ray tube experiment
in a cathode ray tube the cathode rays move towards the anode(positively charged) fixed plate.
Cathode rays are attracted to the positive charge on the anode! They are repelled by the negative charge on the cathode.
JJ Thomson discovered electrons using a cathode ray tube.
There are many different types of cathode ray oscilloscopes. Some of them are: analogue, digital storage, digital phosphor, and sampling.
J.J. Thomson used cathode ray tubes to prove the existence of electrons.