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Products related to Aggregation:


  • Cisco ASR 903 METRO AGGREGATION
    Cisco ASR 903 METRO AGGREGATION

    Cisco ASR 903 METRO AGGREGATION

    Price: 4370.09 £ | Shipping*: 0.00 £
  • Cisco CORE AGGREGATION ADVANTAGE W/
    Cisco CORE AGGREGATION ADVANTAGE W/

    Cisco CORE AGGREGATION ADVANTAGE W/

    Price: 4256.33 £ | Shipping*: 0.00 £
  • Cisco NCS 5500 CORE AND AGGREGATION
    Cisco NCS 5500 CORE AND AGGREGATION

    Cisco NCS 5500 CORE AND AGGREGATION

    Price: 59637.74 £ | Shipping*: 0.00 £
  • Ubiquiti UniFi Switch Pro Aggregation Managed L3 Grey
    Ubiquiti UniFi Switch Pro Aggregation Managed L3 Grey

    Ubiquiti UniFi Switch Pro Aggregation Managed L3 Grey

    Price: 784.88 £ | Shipping*: 0.00 £
  • What is a state of aggregation?

    A state of aggregation refers to the physical state in which matter exists, such as solid, liquid, or gas. It describes how the particles of a substance are arranged and how they move. The state of aggregation of a substance can change with variations in temperature and pressure. Understanding the state of aggregation is important in fields such as chemistry and physics, as it helps to explain the behavior and properties of different materials.

  • Are states of aggregation material properties?

    States of aggregation, such as solid, liquid, and gas, are not material properties themselves, but rather describe the physical state of a material. Material properties refer to characteristics such as density, hardness, and conductivity that are inherent to the material itself. However, the state of aggregation can affect the material properties, as a substance's behavior and properties can change depending on its state (e.g. water's conductivity changes when it transitions from a liquid to a solid state). Therefore, while states of aggregation are not material properties, they can have a significant impact on a material's behavior and characteristics.

  • Which kitchen appliances have a long lifespan, such as mixers, etc.?

    Kitchen appliances that typically have a long lifespan include mixers, food processors, and high-quality blenders. These appliances are built to withstand frequent use and are often made with durable materials that can last for many years. Investing in well-known brands and models known for their longevity can also help ensure that these appliances have a longer lifespan. Regular maintenance and proper care, such as cleaning and storage, can also contribute to extending the lifespan of these kitchen appliances.

  • Which kitchen appliances also have a long lifespan, such as mixers, etc.?

    Kitchen appliances such as mixers, blenders, and food processors are known for their long lifespan. These appliances are designed to withstand heavy use and are built with durable materials, making them reliable for many years. Additionally, high-quality brands and models of these appliances are often built to last, making them a worthwhile investment for any kitchen. Regular maintenance and proper care can also help extend the lifespan of these appliances.

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  • The Hidden World of Protein Aggregation : Volume 206
    The Hidden World of Protein Aggregation : Volume 206

    The Hidden World of Protein Aggregation, Volume 206 provides a comprehensive exploration of protein aggregation, uncovering the factors behind the formation of amorphous aggregates and ordered structures called amyloid fibrils.It delves into the advantages and disadvantages of protein aggregates, addressing topics such as cytotoxicity and disorders linked to misfolding.Specific chapters in this release include Protein Aggregation: An Overview, Pathways of Amyloid Fibril Formation and Aggregation, Factors Influencing Amyloid Fibril Formation, Morphological Features and Types of Aggregated Structures, Each big journey starts with a first step: Importance of Oligomerization, Liquid-Liquid Phase Separation as Triggering Factor of Fibril Formation, and more. Additional sections cover Experimental Techniques for Detecting and Evaluating the Amyloid Fibrils, Prediction of Protein Aggregation, Amyloid Fibril Cytotoxicity and Associated Disorders, Inhibitors of Amyloid Fibril Formation, Therapeutic Approaches in Proteinopathies, Functional Amyloids, Biotechnological Applications of Amyloid Fibrils, and The Hidden World of Protein Aggregation.

    Price: 119.00 £ | Shipping*: 0.00 £
  • Ubiquiti USW-AGGREGATION network switch Managed L2 1U Silver
    Ubiquiti USW-AGGREGATION network switch Managed L2 1U Silver

    Ubiquiti USW-AGGREGATION network switch Managed L2 1U Silver

    Price: 258.19 £ | Shipping*: 0.00 £
  • Ubiquiti USW-PRO-AGGREGATION UniFi Switch Pro Aggregation, 28x 10G SFP+ Ports, 4x 25G SFP28+ Ports, 760 Gbps Switching, 565.44 Mbps Forwarding, 380 Gbps Non-Blocking Throughput
    Ubiquiti USW-PRO-AGGREGATION UniFi Switch Pro Aggregation, 28x 10G SFP+ Ports, 4x 25G SFP28+ Ports, 760 Gbps Switching, 565.44 Mbps Forwarding, 380 Gbps Non-Blocking Throughput

    Layer 3 switch with (28) 10G SFP+ ports and (4) 25G SFP28 ports.The Switch Pro Aggregation is a fully managed, Layer 3 switch with (28) 10G SFP+ ports and (4) 25G SFP28 ports designed to enhance your network's switching capacity and performance by creating high-bandwidth aggregation links. This rack-mountable switch also offers 760 Gbps switching capacity and features a 1.3" LCM color touchscreen that concisely displays key system and connection insights.Additionally, the Switch Pro Aggregation offers enhanced power supply failure protection when connected to the SmartPower Redundant Power System (USP RPS sold separately). This switch can be monitored or configured from anywhere with the powerful, intuitive UniFi Network web application and mobile app.Features(1) 1.3" LCM color touchscreen with AR switch management(28) 10G SFP+ ports(4) 25G SFP28 ports(1) USP RPS DC input760 Gbps switching capacityLayer 3 switching features

    Price: 881.99 £ | Shipping*: 0.00 £
  • Optimization-Based Synthesis of Large-Scale Energy Systems by Time-Series Aggregation
    Optimization-Based Synthesis of Large-Scale Energy Systems by Time-Series Aggregation

    Global greenhouse gas emissions significantly accelerate climate change and adversely affect life on earth.To mitigate these effects, greenhouse gas emissions need to be cut-down by significant reductions in primary energy consumption.Primary energy consumption can be reduced by increasing the efficiency of energy supply, which is mainly fixed during the synthesis of energy systems.Optimal synthesis of energy systems can be realized by mathematical optimization, however the solvable problem complexity is limited.In contrast, energy systems encompass highly complex energy conversion technologies and an increasing number of time-varying operation conditions.Thus, the synthesis of real-world energy systems usually result in large-scale optimization problems, which are computationally prohibitive. In this thesis, a solution framework is proposed to enable large-scale synthesis of energy systems.The framework exploits the two-stage character of synthesis problems: the decision stage of optimal investment for technologies and the operation stage.Thus, the framework solves two consecutive subproblems with reduced complexity by applying time-series aggregation methods. Time-series aggregation is performed by systematic clustering methods.Using these clustering methods, the framework simultaneously identifies the appropriate period length, required number of aggregated periods and number of aggregated time steps per period for accurate synthesis.Based on aggregated synthesis problems, the proposed framework calculates feasible solutions with known accuracy.In addition, the framework measures the accuracy as error of the objective function and iteratively refines the aggregation until an accuracy criterion is satisfied. The proposed solution framework for synthesis of energy systems is applied to two case studies motivated by real-world applications from industry.All results indicate that few time steps and few typical periods are sufficient to identify feasible near-optimal solutions of large-scale synthesis problems.Moreover, results show that intuitive aggregation methods (e.g., monthly averages) are not beneficial - only sophisticated clustering methods allow a strong time-series aggregation with high accuracy for synthesis of energy systems.Overall, the proposed framework outperforms available solution software in both solution time and solution quality.

    Price: 43.99 £ | Shipping*: 0.00 £
  • What are the states of aggregation of acids?

    Acids can exist in different states of aggregation depending on their chemical properties and environmental conditions. In general, acids can be found in solid, liquid, or gaseous states. For example, hydrochloric acid (HCl) is typically found in a liquid state, while sulfuric acid (H2SO4) is commonly found in a liquid state but can also exist as a solid at lower temperatures. Some acids, such as hydrofluoric acid (HF), can exist as a gas at room temperature.

  • How do the terms aggregation and consolidation differ?

    Aggregation and consolidation are both methods used in financial reporting to combine financial information from multiple entities. Aggregation involves combining data at a high level, such as adding up revenues or expenses across different departments or business units. On the other hand, consolidation involves combining financial statements of multiple entities into a single set of financial statements, typically when one entity has control over the others. In summary, aggregation is more about combining data at a high level, while consolidation involves combining financial statements of multiple entities into one.

  • Is the state of aggregation of fire gaseous?

    Yes, the state of aggregation of fire is gaseous. When a substance undergoes combustion, it releases heat and light, and the resulting gases are in a gaseous state. These gases include carbon dioxide, water vapor, nitrogen, and other combustion byproducts. Therefore, fire is considered to be in a gaseous state of aggregation.

  • How can one determine the state of aggregation?

    The state of aggregation of a substance can be determined by observing its physical properties such as shape, volume, and density. For example, a substance that has a fixed shape and volume is in a solid state of aggregation, while a substance that takes the shape of its container and has a fixed volume is in a liquid state of aggregation. A substance that takes the shape of its container and expands to fill the entire volume is in a gaseous state of aggregation. Additionally, the melting and boiling points of a substance can also provide information about its state of aggregation.

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