The bigger the particle the higher the infiltration rate is.
Not all of them are; the only direct subatomic part of the atom that is fundamental is the electron (which is a type of lepton.) Only particles made up of no smaller parts are called fundamental particles. For example, the proton (just like the neutron, except with a small difference) is not a fundamental particle because it is made of quarks, which are fundamental particles.
It all depends on how big the fault is, bigger ones will cause bigger earthquakes, while smaller, or small ones may cause no earthquake at all.
Atoms are composed of protons, electrons and neutrons (save hydrogen-1, which lacks any neutrons). Protons and neutrons are baryons, which are made up of three quarks. Having said that, the quark, which is a fundamental particle, is smaller than an atom by a great deal. Further, the quark is smaller than either a proton or neutron, as both are made of three quarks. The electron is a fundamental particle, and it is smaller still than a quark.When we look at the fundamental particles as they are described in the Standard Model, only the photon and gluon, which are force carriers, are smaller. It should be noted that the way we relate "smaller" in this case is by stating a mass-energy equivalence and describing the mass of the fundamental particles in terms of energy. Use the link below to see a chart of the sixteen particles that make up the three generations of matter.
more playful This is the comparative form of playful. Because playful has two syllables then use more. For smaller adjectives -er is added to the adjective eg big -- bigger, small -- smaller
The process is called "sorting". There are numerous methods to sort particles. For example the physical size can be used to sort particles by passing particles through some sort of sieve or series of sieves. The larger ones will be trapped and smaller ones will pass through. The bank of sieves is usually vibrated to assist passage of the particles. Another method uses the difference in volume/area ratio between large and small particles. A simple way is to let particles fall through a rising flow of gas. The smaller particles will experience a low weight force but a high drag force so they will rise in the gas flow, while the larger particles experience a much higher weight force and only slightly larger drag force so will sink in the gas flow. Varying the gas flow rate will select the particle size separation or sort. A variation on the volume/area ratio method is to use an air flow acting against a "centrifugal" force. (there is no such thing as centrifugal force, but the tangential momentum applied to a spinning wheel is sometimes called "centrifugal force"). In these sorters a disc with radial channels spins. Air is blown towards the centre of the disc and the particles are introduced at the axle where they are tangentially forced towards the outside. Light particles will be blown back and heavy particles will be thrown outwards. There are other methods to sort particles.
Yes, clay particles are very small, smaller than sand particles.
smaller
Lysosomes Kirby330
smaller tiles would make it look bigger
Pluto is a small planetoid smaller than the Earth.
there r two methods of sythesing a nano material .the first one is top down and other one is bottom up process. in top up process bigger particles r broken down in to smaller particles and in second process very very small particles are combined to give nano particles.
Lysomes are small, round structures in cells that break down large food particles into smaller ones.
Youth Large
small balls will bounce higher because they have closer particles
Madagascar is bigger....UK is about 84000 sqmiles Madagascar is about 240000 sqmiles
Lysomes are small, round structures in cells that break down large food particles into smaller ones.
Large particles have less total surface area, so caused less friction then the smaller particles do