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What are the differences between free settling and hindered settling?
when the particle do not collide with the wall of the container or with the other particles is called free settling the suspended particles in the medium do nor effect it and when the particle collide with the other particles and with the wall of the container an d collides with the suspended particles is called hindered settling
What is a science kind of suspension?
In science, a suspension is a heterogeneous mixture in which solid particles remain distributed throughout a liquid without settling to the bottom or floating to the top. This is different from a solution because the solid particles remain distinct from the liquid part of the mixture where in a solution, the solid particles are indistinct from the liquid (solutions are homogeneous).
What are non examples for suspensions?
Well, honey, non-examples for suspensions would be things like solutions where the particles are fully dissolved, or colloids where the particles are evenly dispersed but not actually suspended. Basically, if it ain't a mixture where the particles are floating around in a liquid or gas without fully dissolving or settling, then it ain't a suspension, darling.
Inexpensive method to separate undissolved materials in a liquid?
settling
Creaking noises in your house are made by ghosts Can it be explained by science?
yes, it's called your house is settling and there is no such thing as ghosts
What are the differences between free settling and hindered settling?
when the particle do not collide with the wall of the container or with the other particles is called free settling the suspended particles in the medium do nor effect it and when the particle collide with the other particles and with the wall of the container an d collides with the suspended particles is called hindered settling
What mixture is charachterized by the settling of particles?
Suspension
A liquid mixture in which particles can be seen and easily separate by settling or filtration is a?
A liquid mixture in which particles can be seen and easily separated by settling or filtration is a suspension.
What properties affect settling rates of particles?
Other factors that can affect the settling rates are volume. ( whether it has increased or decreased). The lighter particles can catch wind and glide as their falling, resulting in a slower settling rate. The speed and turbulence of the fluid the particles are flowing in can also affect the settling rates. Lastly, the weight of the particles.
Agitation prevents a what from settling?
Agitation prevents sediment or particles from settling at the bottom of a container or solution.
What is the relationship between particle size and settling time?
Particle size and settling time are inversely related. Smaller particles will take longer to settle due to their lower mass and slower settling velocity, while larger particles will settle more quickly. This relationship is described by Stokes' law, which governs the settling of particles in a fluid based on their size and density.
What is nucleur fallout?
nuclear fallout is the settling of nuclear particles.
Does the Brownian motion prevent colloid particles from settling out a solution?
Yes, Brownian motion helps to prevent colloid particles from settling out of a solution. The random movement of particles due to Brownian motion prevents them from aggregating and settling. This allows colloidal particles to stay suspended in a solution for longer periods of time.
Which separation method can be used to remove sand from seawater?
Either time OR a centrifuge.
What is a liquid mixture in which particles can be seen and easily separated by a settling or filtration?
It is a suspension.
What is liquid mixture in which particles can be seen and easily separated by settling or filtration is a?
It is a suspension.
What is a heterogneous mixture where no settling occurs?
A colloidal suspension is a type of heterogeneous mixture where particles are evenly dispersed throughout a medium like a liquid or gas, preventing settling. This is due to the small size of the particles, which remain suspended through constant movement and collisions with the particles of the medium.
