H19-401_V1.0 HCSP-Presales-Campus Network Planning and Design V1.0 Exam Dumps

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HCSP-Presales-Campus Network Planning and Design V1.0Passing the HCSP-Presales-Campus Network Planning and Design V1.0 certification proves that you are able to build Campus Network Solutions including LAN&WLAN and SD-WAN solutions, independently operate projects, conduct solution technical communication, identify customer pain points, develop appropriate solutions, and have strong competitive analysis and quotation capabilities

This certification is for the pre-sales professionals of partners who sell Huawei enterprise Campus Network products and Campus Network solutions, and those who want to obtain the HCSP-Presales-Campus Network Planning and Design V1.0 certification.

The HCSP-Presales-Campus Network Planning and Design V1.0 written exam covers basic campus network knowledge, network access control, free mobility, major CloudCampus products such as switches, WLAN devices, NCE-Campus, NCE-CampusInsight, cloud management, and SD-WAN, and related basic technologies and solution design.Certification NameHCSP-Presales Campus Network Planning and DesignExam CodeH19-401Exam NameHCSP-Presales Campus Network Planning and Design V1.0LanguageEnglishFee100 USDDuration90 minutesPass Score/Total Score600/1000

Percentage of Knowledge Points in the Written ExamKnowledge PointPercentageNetwork Access Control (NAC) and Free Mobility11%WLAN RRM7%CloudCampus Solution15%Technical Overview of Huawei SD-WAN Solution10%iMaster NCE-CampusInsight — Campus Network Analyzer.pptx6%Enterprise WLAN Planning and Design11%Enterprise WLAN Networking Design7%Scenario-based Enterprise WLAN Design6%CloudCampus Solution Design Guide for Small- and Medium-Sized Campus Networks7%Campus SD-WAN Networking Principles and Planning11%SD-WAN Device Deployment3%Campus SD-WAN Application Experience3%Multi-Campus Network Interconnection Design Guide3%

Share HCSP-Presales-Campus Network Planning and Design V1.0 H19-401_V1.0 Free Dumps1. When using the planning and design tool, what is the incorrect description of the function of NCE-Campus planning?A.Support IP address designB.Support installation parameter designC.The network also supports NCE-Campus planningD.Plan the networking mode and cluster scale in the scenario of the schemeAnswer: C

What kind of service nodes are not included in the cloud management platform controller cluster?A.Data processing node FIB.Authentication node ACAC.Data acquisition node ACCD.Register the inquiry centerE.Device management node ACMAnswer: D
When using the planning and design tool, which of the following statements about the logical networking of the campus network is incorrect?A.The logical networking initialization diagram is determined by the parameters of the scenario of the solutionB.Support multi-region, multi-aggregation node designC.The working mode supports stand-alone and stackedD.You can’t manually drag and drop to modifyAnswer: D
Which of the following functions cannot be automatically deployed through underlays in the solution C1R19C10?A.Physical stackingB.Interconnection addressC.Routing interoperabilityD.Divide the routing areaAnswer: A
In AC3.0, when deploying a Fabric network, which of the following operations is not an operation in Fabric network deployment?A.Configure access managementB.Configure a policy templateC.Create an external networkD.Create a fabric networkAnswer: B
Campus virtualization solution, the networking topology that is not supported by underlay routing automation is ()A.Core transparent transmission ring networkingB.Tree networkingC.Convergence ring networkingD.Access to ring networkingAnswer: D
Which of the following description of business-oriented VAP is correct?A.Provide wireless terminal access functionB.Establish a MESH connectionC.Each radio can be configured with multiple radio resources, and the number is unlimitedD.Each radio can be configured with only oneAnswer: A
Which of the following does not belong to the reliability technology of the controller server?A.Local hardware redundancy protectionB.TE HSBC.Local software protectionD.Remote disaster recoveryAnswer: B

What are the Layers of Atmosphere?

The atmosphere is a vital component of our planet, encompassing a complex arrangement of different layers. These layers of the atmosphere play a crucial role in the Earth’s climate, weather patterns, and the overall sustenance of life. Imagine if the Earth had no atmosphere – no protective shield to keep us safe. We’d be exposed to harmful radiation from the Sun, and there would be no air to breathe.

Layers of Atmosphere
The layers of the atmosphere are given below,
Troposphere
The troposphere is the layer closest to the Earth’s surface, extending approximately 8 to 15 kilometers above the planet’s surface. In the troposphere, the temperature decreases with altitude as well weather phenomena such as clouds, storms, and rains occur here in this layer.It is colder at higher altitudes due to decreasing air pressure, averaging a decrease of 6.5 degrees Celsius per kilometer. The troposphere is of utmost importance as it is the layer we inhabit and where all life on Earth exists. It provides us with the air we breathe and shields us from harmful radiation.

Stratosphere
The stratosphere is located just above the troposphere and reaches up to approximately 50 kilometers (about 31.07 mi) above the Earth’s surface. Similar to the troposphere, the temperature in the stratosphere also increases with altitude. This phenomenon is attributed to the presence of the ozone layer, which absorbs most of the incoming ultraviolet (UV) radiation from the Sun. The ozone layer acts as a protective shield, safeguarding life on Earth from the harmful effects of excessive UV radiation. Additionally, the stratosphere is a critical layer for air travel, as commercial airplanes fly within this region.

Mesosphere
Above the stratosphere lies the mesosphere, extending up to about 85 kilometers above the Earth’s surface. The mesosphere is characterized by extremely low temperatures, dropping to as low as -90 degrees Celsius. It is in this layer that meteors burn up upon entry, creating mesmerizing shooting stars. Furthermore, the mesosphere plays a crucial role in protecting the Earth from the impact of space debris. It also aids in transmitting radio waves for long-distance communication.

Thermosphere
The thermosphere is situated beyond the mesosphere and reaches an altitude of about 600 kilometers. In this layer, the temperature rises significantly due to the absorption of high-energy solar radiation. Although the thermosphere has extremely high temperatures, it is not noticeably hot due to the low density of molecules. This layer is essential for the operation of satellites and spacecraft, as it facilitates the transmission of radio signals and houses the International Space Station.

Exosphere
The exosphere is the outermost layer of the Earth’s atmosphere. It extends from the top of the thermosphere to the edge of space. The exosphere is characterized by extremely low atmospheric pressure and a gradual transition into the vacuum of space. This layer contains a sparse distribution of gas molecules, primarily hydrogen and helium. It is here that gases escape into space, which has significant implications for studying the Earth’s long-term climate change.

Importance of Earth’s Atmosphere Layers

The following are the importance of atmosphere layer,
Troposphere: The troposphere is crucial for life on Earth because it contains the air we breathe. It also acts as a buffer, absorbing harmful ultraviolet (UV) radiation from the Sun.
Stratosphere: The stratosphere is vital because it contains the ozone layer, which shields us from harmful ultraviolet (UV) radiation. Without the ozone layer, life on Earth would be at risk from excessive UV exposure.
Mesosphere: The mesosphere plays a role in protecting us from incoming space debris by causing most meteors to disintegrate upon entry.
Thermosphere: The thermosphere is important for various reasons, including its role in helping satellites stay in orbit, as it’s where the International Space Station (ISS) orbits. It also enables the transmission of radio signals over long distances.
Exosphere: The exosphere marks the boundary between our planet and the vastness of space. It’s the layer that spacecraft must pass through to leave Earth’s atmosphere.
The layers of atmosphere work together to regulate the Earth’s climate and provide a suitable environment for life to thrive. Each layer has its unique characteristics and importance, contributing to the delicate balance that sustains our planet. Understanding the structure and significance of these layers enables us to appreciate the intricacies of our atmosphere and the fascinating interplay between its different components.

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What are the Types and Functions of Heterotrophic Nutrition?

At its core, nutrition in plants refers to the process through which they obtain and utilize essential substances for growth, development, and reproduction. Just like humans need food for energy, plants require nutrients to carry out their life processes.

There are two types of nutrition in plants namely
Autotrophic Nutrition
Heterotrophic Nutrition
What is Autotrophic Nutrition?
Autotrophic nutrition is a mode of nutrition in plants where they can synthesize their food using simple inorganic substances such as carbon dioxide and water. This process mainly occurs through photosynthesis, where plants utilize sunlight to convert these raw materials into glucose, the primary source of energy for their growth and development.

Process of Autotrophic Nutrition in Plants
The complete process of Autotrophic nutrition we have already covered in the article What is Autotrophic Nutrition? – Definition, Types, Example

In brief, during photosynthesis, plants use chlorophyll, a pigment found in their chloroplasts, to capture sunlight and initiate the complex chemical reactions that result in glucose production. This glucose is then stored or used immediately to fuel various metabolic processes within the plant.

Functions of Autotrophic Nutrition
Autotrophic nutrition is crucial for plants as it provides them with the necessary energy to carry out essential functions like growth, reproduction, and defense against environmental stressors. By harnessing the power of sunlight, plants can sustain themselves and contribute to the overall ecosystem.

What is Heterotrophic Nutrition?
In contrast to autotrophic nutrition, heterotrophic nutrition involves plants obtaining their nutrients from organic sources. There are various types of heterotrophic nutrition, each with its unique way of acquiring nutrients to support plant growth and survival.

Types of Heterotrophic Nutrition
There are 4 types of heterotrophic nutrition exists. Here we have named each type and a detailed explanation of each type of heterophilic nutrition we have covered in this article Complete Guide to Heterotrophic Nutrition

Parasitic Nutrition
Insectivorous Nutrition
Saprophytic Nutrition
Symbiotic Nutrition
Functions of Heterotrophic Nutrition

Heterotrophic nutrition provides plants with a diverse range of nutrient sources, enabling them to adapt to different environmental conditions and thrive in various ecosystems. By supplementing their diet with organic matter from external sources, plants can maintain their health and vigor.

Autotrophic Nutrition vs Heterotrophic Nutrition – Additional Points

While both autotrophic and heterotrophic nutrition are essential for plant growth and survival, they differ in their sources of nutrients. Autotrophic plants can produce their food through photosynthesis, while heterotrophic plants rely on external sources for their nutrient requirements. This distinction reflects the diverse strategies plants have evolved to meet their nutritional needs and underscores the complexity of plant physiology.

In conclusion, nutrition in plants is a multifaceted process that encompasses a range of modes and strategies for acquiring essential nutrients. By understanding the dynamics of autotrophic and heterotrophic nutrition, we gain insight into the remarkable adaptability of plants and their crucial role in sustaining life on Earth. So, the next time you marvel at a lush garden or a sprawling forest, remember the intricate dance of nutrition that fuels the beauty and diversity of the plant kingdom. Explore more about nutrition in plants and deepen your appreciation for these remarkable organisms!

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