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Polymer Classification: Architecture01:14

Polymer Classification: Architecture

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Polymers are classified as linear or branched on the basis of their chain architecture. The polymer chains in linear polymers have a long chain-like structure with minimal to no branching at all. Even if a polymer features large substituent groups on the monomer, which appear as branches to the skeleton, it is not considered a branched polymer. A branched polymer contains secondary polymer chains that arise from the main polymer chain. The branching occurs when the polymer growth shifts from...
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Primary and Secondary Growth in Roots and Shoots03:02

Primary and Secondary Growth in Roots and Shoots

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Vascular plants, which account for over 90% of the Earth’s vegetation, all undergo primary growth—which lengthens roots and shoots. Many land plants, notably woody plants, also undergo secondary growth—which thickens roots and shoots.
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Root Mean Square00:57

Root Mean Square

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If in an experiment, data values have a probability of being both positive and negative, neither the arithmetic mean, the geometric mean, nor the harmonic mean can be used to calculate the central tendency of the data set. In particular, if the positive and negative values are equally likely, the arithmetic mean is close to zero.
For example, consider the velocity of gas molecules in a container. The gas molecules are moving in different directions, which might impart positive and negative...
3.8K
Properties of the Root Locus01:05

Properties of the Root Locus

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The root locus method is an invaluable tool for analyzing higher-order systems without needing to factor the denominator of the transfer function. A pole of the system is identified when the characteristic polynomial in the transfer function's denominator equals zero.
To determine if a point lies on the root locus, the criterion involves the sum of angles contributed by all poles and zeros to that point. Specifically, this sum must be an odd multiple of 180 degrees. The gain at any point on...
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Root-Locus Method01:19

Root-Locus Method

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A cruise control system in a car is designed to maintain a specified speed automatically by adjusting the gas pedal. The system continuously measures the vehicle's speed and makes fine adjustments to the pedal to achieve this goal. The root locus method is particularly useful for understanding how the cruise control system's behavior changes under varying conditions, such as when the car goes uphill, downhill, or faces strong wind resistance.
This system can be represented by a block...
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Construction of Root Locus01:15

Construction of Root Locus

419
The construction of a root locus involves several key steps to analyze and visualize the behavior of a system's poles with varying gain. The number of branches in the root locus equals the number of closed-loop poles and is symmetrical about the real axis.
For positive gain values, the root locus exists on the real axis to the left of an odd number of finite open-loop poles or zeros. The root locus starts at the open-loop poles and traces the paths of the closed-loop poles as the gain...
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Updated: Feb 5, 2026

A Simple Protocol for Mapping the Plant Root System Architecture Traits
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A Simple Protocol for Mapping the Plant Root System Architecture Traits

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Microbiota radicular: orquestando cultivos inteligentes en arquitectura

Qinqin Chen1,2, Yanlai Yao1, Huan Chen3

  • 1Xianghu Laboratory, Hangzhou, China.

Microbial biotechnology
|February 4, 2026
PubMed
Resumen
Este resumen es generado por máquina.

Comprensión de la microbiota radicular

Palabras clave:
Ciclo(Leu-Pro)arquitecturaarquitectura de cultivosmicrobiota radicularesnolactona

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Área de la Ciencia:

  • Microbiología Agrícola
  • Ciencia de las Plantas
  • Ecología Microbiana

Sus antecedentes:

  • Los cultivos dependen de las comunidades microbianas para su crecimiento y resiliencia.
  • La microbiota radicular juega un papel clave en el desarrollo de las plantas.
  • Comprender estas interacciones es crucial para la agricultura sostenible.

Objetivo del estudio:

  • Destacar el papel de la microbiota radicular en la regulación del número de tallos del arroz.
  • Proponer un cambio hacia la 'arquitectura del holobionte' para la mejora de cultivos.
  • Explorar la orquestación microbiana para la cría de cultivos adaptables.

Principales métodos:

  • Se investigó la influencia de la microbiota radicular en la arquitectura de la planta de arroz.
  • Se analizó el concepto de 'arquitectura del holobionte' en la cría de cultivos.
  • Se discutió el ajuste fino microbiano para la plasticidad fenotípica.

Principales resultados:

  • La microbiota radicular regula directamente el número de tallos del arroz, lo que impacta el rendimiento.
  • La influencia microbiana ofrece una nueva perspectiva más allá de la genética para la arquitectura de los cultivos.
  • La orquestación microbiana permite la cría de rasgos adaptativos.

Conclusiones:

  • Cambiar el enfoque a la 'arquitectura del holobionte' es clave para la producción futura de cultivos.
  • Las aplicaciones microbianas ofrecen un ajuste fino dinámico para la cría de 'cultivos inteligentes en arquitectura'.
  • La plasticidad fenotípica a través de la interacción microbiana mejora la resiliencia de los cultivos a los cambios ambientales.