IF and ONLY IF when the mass of particles are same.
Large particle sizes will need high stream's velocity to carry it from one place to another,In another word If the stream velocity is slow than large particle sizes
will be stationary.
The relationship between particle size and wavelength is key in understanding phenomena such as diffraction and scattering. Generally, particles on the order of the same size as the wavelength of radiation interact more strongly with that radiation. This relationship is fundamental to fields like optics, where it impacts the behavior of light passing through or reflecting off particles.
what is the relationship between particle size and the stream velocity?
The greater the particle size, the longer its wavelength.
describe the relationship between stream velocity,erosion,transport and deposition
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A particle scatters light if it is larger than the wavelength of light. This is because scattering occurs when the size of the particle is comparable to or larger than the wavelength of the light waves it interacts with, causing the light to be redirected in different directions.
The size of a wave is not affected by the wavelength, but rather by the energy carried by the wave. The wavelength determines the distance between wave crests, while the amplitude of the wave determines its size or height. Changing the wavelength of a wave will not inherently change its size.
A wavelength is the distance between two consecutive points of a wave that are in phase. It is inversely proportional to the frequency of the wave - the higher the frequency, the shorter the wavelength, and vice versa. Wavelength is usually measured in meters or other distance units.
The size of the wavelength is inversely proportional to its energy level. This means that shorter wavelengths have higher energy levels, while longer wavelengths have lower energy levels. This relationship is described by the formula E = h * c / Ξ», where E is energy, h is Planck's constant, c is the speed of light, and Ξ» is the wavelength.
This type of emphasis is known as proportion. Proportion is the relationship between different elements in a composition in terms of size, quantity, or scale. It helps to create a sense of harmony and balance in a work of art.
If you were to graph particle size and porosity, it would be a constant slope (horizontal line).Porosity is not affected by particle size.
The more particle is given the less water would go through it leaving the particle wet
As soil particle size increases so does permeability. I am doing Earth Science in 8th grade and 9R in 8th grade
As soil particle size increases so does permeability. I am doing Earth Science in 8th grade and 9R in 8th grade
A particle scatters light if it is larger than the wavelength of light. This is because scattering occurs when the size of the particle is comparable to or larger than the wavelength of the light waves it interacts with, causing the light to be redirected in different directions.
indirect the smaller the particle the faster it will go or the larger the particle the more time it takes
False
Particle size refers to the overall size of the individual particles in a material, while crystallite size specifically refers to the size of the crystalline regions within a material. Crystallite size is related to the arrangement of atoms within a material, while particle size is a more general measure of the physical dimensions of the particles.
The size of a wave is not affected by the wavelength, but rather by the energy carried by the wave. The wavelength determines the distance between wave crests, while the amplitude of the wave determines its size or height. Changing the wavelength of a wave will not inherently change its size.
the relationship between grain size and strength can be determined by the Hall- Patch relationship of Strength of materials.
Find the relationship between internal efficiency and school size?
No. The spaces between the particles in a gas are much bigger than the particles themselves. The size of a particle does not vary between the states of a substance.