Ultracentrifuge

An ultracentrifuge is a centrifuge characterized by a very high rotation speed. It is used to separate large molecules such as protein molecules.

The operating principle of an ultracentrifuge is based on the centrifugal force that occurs during rapid rotation of a test tube with the test substance. Particles with greater mass, under the influence of centrifugal force, move to the periphery of the test tube, while lighter ones remain closer to the axis of rotation. In this way, the particles are separated by mass.

Modern ultracentrifuges can reach rotation speeds of up to 150,000 rpm, creating a centrifugal acceleration of about 1,000,000 g. This makes it possible to effectively separate molecules with molecular weights ranging from several thousand to several million daltons.

Ultracentrifuges are widely used in biochemical research to study the structure and properties of proteins, nucleic acids and other macromolecules. It is also used in industry for the purification of biological products. Modern ultracentrifuges are equipped with various sensors that allow monitoring the separation process in real time.



An ultracentrifuge is a centrifuge with a very high rotation speed. It is used to separate large molecules such as protein molecules.

The ultracentrifuge is capable of generating extremely high centrifugal force by spinning at speeds of up to 150,000 rpm. This allows it to separate particles based on their density and size, including separating subcellular components such as organelles, viruses, macromolecules and supramolecular complexes.

Ultracentrifuges are widely used in biochemistry and molecular biology to study proteins and nucleic acids. It allows you to determine the molecular weight of biopolymers, their shape and interactions with each other. In addition, an ultracentrifuge is used to purify biological molecules from impurities.



An ultracentrifuge is a centrifuge with a very high rotation speed. It is used to separate large molecules, such as protein molecules.

The ultracentrifuge can rotate at speeds of up to 150,000 rpm, creating g-forces of hundreds of thousands of g. This high rotation speed makes it possible to effectively separate particles based on their molecular weight by centrifugal sedimentation.

The operating principle of an ultracentrifuge is based on centripetal acceleration that occurs during rotation. Particles with greater mass settle faster and end up closer to the bottom of the centrifuge cuvette. In this way, the mixture of substances is separated.

The ultracentrifuge is widely used in biochemistry and molecular biology for the isolation and purification of biopolymers such as proteins, nucleic acids and large subcellular complexes. It provides important information about their molecular weight, structure and interactions.



Ultracentrifuge: an essential tool for scientists and researchers!

An ultracentrifuge is a high-speed centrifuge machine that is used to quickly mix or separate particles in suspensions through high-frequency rotation. This is important for research and development where rapid isolation of large molecules and particles such as proteins, lipids, nucleic acids and other biomolecules is required.

How does an ultracentrifuge work?

The operating principle of ultracentrifuges is based on the fact that particles will rotate at high speeds due to centrifugal forces created by the rotation of the machine rotor. During centrifuge operation, different types of particles, including microorganisms and multicellular objects, can be effectively separated and concentrated into different fractions of the solution.

It is important to note that the rotation speed can reach from 40,000