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Density00:56

Density

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Density is an important characteristic of substances, crucial in determining whether an object sinks or floats in a fluid. Its SI unit is kg/m3, and its cgs unit is g/cm3. The density of an object helps in identifying its composition, and also reveals information about the phase of the matter and its substructure. The densities of liquids and solids are roughly comparable, consistent with the fact that their atoms are in close contact. However, gases have much lower densities than liquids and...
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Current Density01:21

Current Density

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The total amount of current flowing through one unit value of a cross-sectional area is referred to as current density. If the current flow is uniform, the amount of current flowing through a conductor is the same at all points along the conductor, even if the conductor area varies. The current density consists of the local magnitude and direction of the charge flow, which varies from point to point. Current density is measured in amperes per meter square, and direction is defined as the net...
5.2K
Colors and Magnetism03:02

Colors and Magnetism

14.1K
Color in Coordination Complexes
When atoms or molecules absorb light at the proper frequency, their electrons are excited to higher-energy orbitals. For many main group atoms and molecules, the absorbed photons are in the ultraviolet range of the electromagnetic spectrum, which cannot be detected by the human eye. For coordination compounds, the energy difference between the d orbitals often allows photons in the visible range to be absorbed and emitted, which is seen as colors by the human...
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Strain-Energy Density01:20

Strain-Energy Density

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Understanding the strain energy density in materials under axial load is crucial for evaluating their mechanical behavior and durability. When a rod is subjected to such a load, it elongates and stores energy, known as strain energy, as potential energy within the material. This energy is measured in terms of energy per unit volume.
In the elastic region of a material, the relationship between the stress and the strain is linear and follows Hooke's Law. The strain energy density in this region...
929
Bulk Density of Aggregate01:22

Bulk Density of Aggregate

1.2K
Bulk density refers to the mass of aggregate particles that would fill a unit volume. The concept of bulk density originates from the inability to pack aggregate particles in a manner that completely eliminates void spaces. Hence, the term bulk refers to the volume that encompasses both the aggregates and the voids. This measurement is crucial when aggregates are batched by volume and is used to convert quantities by mass to volume.
Most natural mineral aggregates, like sand and gravel,...
1.2K
Density and Archimedes' Principle01:05

Density and Archimedes' Principle

8.9K
When a lump of clay is dropped into water, it sinks. But if the same lump of clay is molded into the shape of a boat, it starts to float. Because of its shape, the clay boat displaces more water than the lump and experiences a greater buoyant force, even though its mass is the same. The same holds true for steel ships. The average density of an object majorly determines if the object will float. If an object's average density is less than that of the surrounding fluid, it will float. The...
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Quantification of Cellular Densities and Antigenic Properties using Magnetic Levitation
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Quantification of Cellular Densities and Antigenic Properties using Magnetic Levitation

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Medición de la densidad de alto rendimiento mediante levitación magnética

Shencheng Ge1, Yunzhe Wang1, Nicolas J Deshler1

  • 1Department of Chemistry & Chemical Biology , Harvard University , 12 Oxford Street , Cambridge , Massachusetts 02138 , United States.

Journal of the American Chemical Society
|June 12, 2018
PubMed
Resumen
Este resumen es generado por máquina.

Este estudio presenta un sistema de levitación magnética de alto rendimiento (MagLev) para mediciones de densidad de diversos materiales, incluidas las células. El sistema integrado utiliza placas de 96 pozos y un escáner para un análisis eficiente y sin etiquetas.

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Área de la Ciencia:

  • Química analítica
  • La bioquímica
  • Ciencias de los materiales

Sus antecedentes:

  • La levitación magnética (MagLev) ofrece un análisis basado en la densidad, pero carece de capacidades de alto rendimiento.
  • Los métodos MagLev actuales no están optimizados para analizar múltiples muestras simultáneamente.
  • La caracterización basada en la densidad sin etiquetas es crucial para varias disciplinas científicas.

Objetivo del estudio:

  • Desarrollar un sistema analítico integrado de alto rendimiento para mediciones de densidad.
  • Adaptar la tecnología MagLev para la compatibilidad con placas estándar de 96 pozos.
  • Permitir el análisis sin etiquetas basado en la densidad de diversos materiales diamagnéticos, incluidas las células biológicas.

Principales métodos:

  • Reingeniería de campos magnéticos para habilitar el MagLev en placas de 96 pozos.
  • Integrado un escáner plano y componentes ópticos para la toma de imágenes de muestras.
  • Se utilizó la levitación magnética para la determinación de la densidad de varias muestras diamagnéticas.

Principales resultados:

  • Se ha demostrado el éxito de las mediciones de densidad de alto rendimiento mediante el sistema MagLev integrado.
  • Se ha validado la compatibilidad del sistema con muestras biológicas (eritrocitos humanos) y no biológicas (líquidos, sólidos, polvos, perlas).
  • Se ha conseguido un análisis de densidad libre de etiquetas basado en la levitación magnética.

Conclusiones:

  • El sistema integrado MagLev desarrollado supera las limitaciones de rendimiento anteriores.
  • Esta tecnología permite nuevas aplicaciones en el análisis de materiales, separación y estudios bioquímicos.
  • El sistema proporciona un método simple y libre de etiquetas para la caracterización de la densidad utilizando una propiedad universal de la materia.