Want this question answered?
In that case, basically no force acts on the particle, and the particle moves at a constant speed. This constant speed may, or may not, be zero.
The particle speed increases.The energy increases; the speed increases.
Yes.
No.
The higher the wind speed, the bigger the particle size.
The key difference between a particle and a rigid body is that a particle can undergo only translational motion whereas a rigid body can undergo both translational and rotational motion
No. The more energy the accelerator can give the particle, the closer the particle can approach to the speed of light, but it can never reach exactly that speed.
In that case, basically no force acts on the particle, and the particle moves at a constant speed. This constant speed may, or may not, be zero.
The particle speed increases.The energy increases; the speed increases.
No particle can reach the speed of light. Mass increases with speed, and the particle would become infinitely massive as it came closer to the speed of light.
A non-relativistic particle is any particle not traveling at a speed close to the speed of light. This is not a property of particular type of particle; any particle may in general travel at any speed (below the speed of light). An exception are particles which are massless such as photons and gluons, these MUST travel at the speed of light.
The average translational kinetic energy of a monotomic atom is directly proportional to the thermodynamic temperature of the atom. E=1.5 (kT) where k = the Boltzman Constant where T = The Thermodynamic Temperature in Kelvin since it is the average kinetic energy is applied... 0.5mv2 = 1.5kT T = (mv2)/3k where m is the mass of the atom and v is the speed of the particle. Thus, the thermodynamic temperature is proportional to the square of the velocity.
the term steady implies no change at a point in time, however particle speed can change from point to point. ie, water novel, steady flow with increase in velocity
what are particle that show comparasons of the speed at wich sound will move throught matirials ? what are particle that show comparasons of the speed at wich sound will move throught matirials ?
A beta particle is an electron (or positron) with high energy and speed.
Well, if it is a particle of light (a photon) it takes about a second and a half. If it is any other particle, one that does not move at the speed of light, then you have to define a speed for it.
temperature