Gas particles move at different speeds due to their kinetic energy, which is related to the temperature of the gas. At higher temperatures, gas particles have more kinetic energy and move faster on average, leading to a range of speeds rather than all particles moving at the same speed. This distribution of speeds is described by the Maxwell-Boltzmann distribution.
Probably you mean temperature, rather than heat. And the temperature is more related to a particle's ENERGY than to its SPEED. I believe the degrees of freedom also have something to do with it - something like, average kinetic energy per particle and degree of freedom. Anyway, even though more speed means more energy, larger particles will move more slowly for the same kinetic energy - and therefore they will be slower at the same temperature. Also, while the speed is limited to the speed of light, there is practically no limit to the kinetic energy a particle can have.
Nothing that has mass when it's stationary can move at the speed of light. Electrons can move at any lesser speed. In modern particle accelerators, they can be boosted to 0.99999c. But every additional ' 9 ' requires ten times as much energy as the previous one did.
Particles in gas move in a straight line until they collide with another particle or the walls of the container. They move at a constant speed until they collide, then change direction. The particles have random motion, moving in all directions.
Impulses move slower at lower temperatures because temperature affects the speed of nerve conduction by altering the rate of chemical reactions involved in transmitting the impulse. Cold temperatures slow down these chemical reactions, causing nerve impulses to travel more slowly.
The types of particle transport mechanisms by which particles move into and out of the cell are diffusion, osmosis, and active transport.
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 ?
The relationship between temperature and gas particle speed is direct and proportional. As temperature increases, the speed of gas particles also increases. This is because higher temperatures provide more energy to the gas particles, causing them to move faster.
In a vacuum, a photon can ONLY move at the speed of light. A regular particle can ONLY move at speeds less than the speed of light.
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.
Substances with a large amount of thermal energy have higher average speeds of particle motion. This is because thermal energy increases the kinetic energy of particles, causing them to move faster. The average speed of particle motion can be quantified using temperature, where higher temperatures correspond to higher average speeds of particles.
No, remember Newton's Law E=MV2. So a particle with the same energy with double the mass would move 1/4 the speed.
No, because the orbital is really just an abraction - the electron isn't racing around the orbital like a racecar, so there isn't a speed. The orbital is a better measure of the electrons potential energy.
Yes it is..Therotically no object can move in the speed of light.But now scientists are trying to find the conditions for which a particle can move in the speed of light. No, anything massless can (and must!) move at c. No object carrying mass can ever move at c.
The average speed of particles in a substance is determined by the temperature of the substance. At higher temperatures, particles move faster, while at lower temperatures, particles move slower. This average speed is related to the kinetic energy of the particles.
A particle that can move as fast or faster than light, it just can't move slower than light. This particle has not been proven to exist.it does exist but not in this universe it also been called god speed
The motion of particles can change due to various factors like temperature, pressure, and external forces. For example, at higher temperatures, particles tend to move faster, whereas at lower temperatures, their motion slows down. Additionally, external forces can affect the direction and speed of particle motion.
When energy decreases, the particle motion usually slows down. This can manifest as a decrease in kinetic energy and a reduction in the speed at which particles move.