How a centrifuge separates particles by density

In summary, a centrifuge separates particles by increasing the terminal velocity of denser particles through the use of centrifugal force. This force is related to the mass of the particles, causing them to accumulate at the bottom of the vial during the spinning process. This applies even when the centrifuge is spinning horizontally, as the force of the spinning motion overcomes the pressure of the liquid. Ultimately, a centrifuge simply amplifies the effect of gravity on the particles, causing them to separate faster.
  • #1
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I am confused on how a centrifuge separates particles by density. In http://en.wikipedia.org/wiki/Centrifuge" , which appears to have something to due with an applied force or centrifugal force. It would seem like the more massive particles would remain closer to the axis of rotation due to their greater mass resisting centrifugal acceleration. Does any of the separation occur during the angular acceleration of the device up to operating angular speed, or does it all occur while spinning at constant speed?

Any help will be greatly appreciated.
 
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  • #2


Since the particles are denser than the fluid, they have a natural tendency to settle to the bottom, but they are prevented from this due to a low terminal velocity and turbidity of the suspension. The spinning motion creates extra "artificial gravity" and so increases the terminal velocity of the particles, allowing them to overcome the turbidity.
 
  • #3


turin said:
Since the particles are denser than the fluid, they have a natural tendency to settle to the bottom...The spinning motion creates extra "artificial gravity" and so increases the terminal velocity of the particles, allowing them to overcome the turbidity.

Does this still apply to a horizontally spinning centrifuge? Is the "weight" of the denser particles greater in the horizontal direction as the centrifuge spins, and this overcomes the pressure of the liquid (due to the liquids "weight" in this direction), so the denser particles sink sideways? Is the "weight" the centrifugal force, and if so what applied force is the "weight" a reactive force to?

Thank you for you reply.
 
  • #4


As the centrifuge spins, the "bottom" of the vial applies a centripetal force to the contents within the vial. The contents of within the vial respond with a reactive centrifugal force. Since this force is related to the mass of the particles, the denser particles will tend to flow towards and accumulate at the "bottom" of the vial during this process.
 
  • #5


A centrifuge increases g-forces, amplyfing the effect of gravity, that's all. So if you're not sure what will happen in a centrifuge, just consider what will happen to the contents of the container if they are sitting still on a table. Ie, shake up some Italian dressing (oil and vinegar) and set it on a table. What happens? The oil and vinegar slowly separate. Put it in a centrifuge? They separate faster.
 

1. How does a centrifuge work to separate particles by density?

A centrifuge uses centrifugal force to separate particles based on their density. The spinning motion of the centrifuge creates a strong outward force that causes the denser particles to move towards the bottom while the less dense particles remain towards the top.

2. What are the main components of a centrifuge?

The main components of a centrifuge include a rotor, a motor, and a tube or container to hold the sample. The rotor is the spinning part of the centrifuge that creates the centrifugal force, while the motor provides the power to spin the rotor. The tube or container holds the sample and allows for separation by density.

3. How is the speed of a centrifuge determined?

The speed of a centrifuge is determined by the revolutions per minute (RPM) of the rotor. The higher the RPM, the greater the centrifugal force and the faster the separation of particles by density will occur.

4. Can a centrifuge be used for all types of particles?

A centrifuge is most effective for separating solid particles from liquid, but it can also be used for separating different types of particles based on their density, such as different types of cells. However, it may not be suitable for separating very small particles or particles that have a similar density.

5. What are the safety precautions when using a centrifuge?

When using a centrifuge, it is important to balance the sample tubes to prevent the rotor from becoming unbalanced and potentially causing damage. It is also important to wear appropriate personal protective equipment, such as gloves and safety glasses, and to follow the manufacturer's instructions for proper use and maintenance of the centrifuge.

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