Want this question answered?
de Brogile was blind and half deaf, it was until the late 1800's that he found a female companion. in 1902 his first child de Brogile the 2nd (JR) was born. twelve years later de Brogile was sent to an insane asylum for going crazy and murdering his wife and son. He later died of herpes thirteen years later. he was completely irrelevant to the assumption about the motion of tiny particles.
The particles are tightly packed so they vibrate.
In short, it is called de Broglie wave (or matter wave). Which relates frequency and wavelength to momentum and energy. This relation then leads to group velocity which is an important part of quantum mechanics.
Brownian motion is the random moving and mixing of particles.
Brownian motion is the random moving and mixing of particles.
Particles in motion will generally have kinetic energy, or momentum. Cumulative effects of motions of groups of particles (Brownian motion) is perceived as heat. According to the duality of matter (wave-particle), a moving particle can also be said to have a wavelength (De Broglie wavelength) associated with its mass and momentum.
de Brogile was blind and half deaf, it was until the late 1800's that he found a female companion. in 1902 his first child de Brogile the 2nd (JR) was born. twelve years later de Brogile was sent to an insane asylum for going crazy and murdering his wife and son. He later died of herpes thirteen years later. he was completely irrelevant to the assumption about the motion of tiny particles.
The particles are tightly packed so they vibrate.
In short, it is called de Broglie wave (or matter wave). Which relates frequency and wavelength to momentum and energy. This relation then leads to group velocity which is an important part of quantum mechanics.
Brownian motion
The motion of particles is accelerated.
Brownian motion is the random moving and mixing of particles.
Brownian motion is the random moving and mixing of particles.
Particles within are limited to vibrational motion, unlike the particles which make up liquids which can have vibrational & translational motion, and gaseous particles which have vibrational, translational and rotational motion.
Unless the particles collide
Brownian motion. This is random motion of micro particles resultimg from collisions between the particle in question and other particles in the surrounding medium.
if this is about the motion of the particles,it is brownian motion.the random motion of the particles.