i dont really know
i dont really know
The particle size of a liquid, a solid and a gas will differ in weight and volume. Systems can mean the size of the respective bubbles particles, and droplets.
In an amorphous solid, the particle arrangement on both a macroscopic and microscopic scale has no periodicity, it is literally amorphous. On a crystalline solid, the particles arrangement is neat and ordered. There is a periodicity to the particles.
The motion of particles in a solid are much slower than those in the gas. Gaseous particles are very energetic and highly kinetic.
In a liquid forces are stronger.
i dont really know
The mass and size of an alpha particle compare with the masa and size of beta particle in the sense that the alpha particle is significantly larger in both size and mass that the beta and gamma particles. This is why it is called the alpha particle.
The particle size of a liquid, a solid and a gas will differ in weight and volume. Systems can mean the size of the respective bubbles particles, and droplets.
In an amorphous solid, the particle arrangement on both a macroscopic and microscopic scale has no periodicity, it is literally amorphous. On a crystalline solid, the particles arrangement is neat and ordered. There is a periodicity to the particles.
The motion of particles in a solid are much slower than those in the gas. Gaseous particles are very energetic and highly kinetic.
Light can be considered as a wave, or as a particle. As a particle, the particles are called photons. As a wave, light is an electromagnetic wave. In either case, the speed of light (in a vacuum) is approximately 300,000 km/sec.
What is the range of beta particles in air as compare to alpha particles?Read more: What_is_the_range_of_beta_particles_in_air_as_compare_to_alpha_particles
1. A cloud chamber can be used to detect alpha or beta particle radiation. A cloud chamber is filled with water or ethanol vapor. When radioactive sample is placed in the cloud the chamber gives off charged alpha or beta particles that travel through the water or ethanol vapor. -B0N3S
For the same material, at a higher temperature the particles will move faster.However, if you compare different materials, it is more complicated. The temperature is more closely related to the average energy per particle and per degree of freedom.
For the same material, at a higher temperature the particles will move faster.However, if you compare different materials, it is more complicated. The temperature is more closely related to the average energy per particle and per degree of freedom.
The easiest way to distinguish between volcanic ash and volcanic dust particles is to compare their diameter. Seismographs can be useful in predicting volcanic eruptions because they measure earthquake activity.
well the solubility of any substance depnds on the forces acting between water molecules and solute particles compared to the forces acting between the solute particles