Want this question answered?
The particle model explains compton scattering and the photo-electric effect perfectly, which the wave model utterly fails to do. The full spectrum of blackbody radiation can be easily derived with the particle model of light, but not with the wave model.
The ramp method best explains the particle model as far as buoyancy is concerned.
The photoelectric effect is a phenomena that can only be explained by the particle model.
Particle model is a scientific model of the 3 states of matter: solids, liquids, and gases.
During the life of Isaac Newton, there was a huge scientific debate between proponents of the wave model of light and the particle model of light. This was resolved in the 20th century by quantum mechanics which showed that light is both a particle and a wave.
The particle model explains compton scattering and the photo-electric effect perfectly, which the wave model utterly fails to do. The full spectrum of blackbody radiation can be easily derived with the particle model of light, but not with the wave model.
The ramp method best explains the particle model as far as buoyancy is concerned.
The collective scientific understanding of the particles that make up matter and the known forces through which they interact is known as "the Standard Model of particle physics" or simply, the Standard Model.
The nebular model explains
The photoelectric effect is a phenomena that can only be explained by the particle model.
The sliding filament model of contraction involves actin filaments overlapping myosin filaments.
How does a ballon defeating slowly support the particle model
Particle model is a scientific model of the 3 states of matter: solids, liquids, and gases.
There are different models that describe the contraction of muscles. Not everyone agrees on which is best. A couple of the models are the sliding-filament model and Huxley's model.
A particle model
pork
Diffusion