How to Pass the Microsoft AZ-700 Exam

  • AZ-700 exam
  • Published by: André Hammer on Feb 12, 2024

Are you ready to become a Microsoft Azure Solutions Architect Expert? The AZ-700 exam can help you get there.

We'll help you pass this exam with ease. We'll cover everything from exam format to effective preparation. Let's get started on your journey to success in cloud computing.

Overview of the AZ-700 Exam

The AZ-700 Exam covers topics like Azure governance, security, and identity management. This is important for professionals seeking to prove their skills in managing Azure environments.

There are resources to help prepare for the exam. Online forums, practice tests, and Microsoft's official documentation offer insights on the exam format and key areas.

Enrolling in training courses or seeking advice from experienced Azure professionals can also provide practical knowledge and tips.

Using these resources can help individuals better grasp the exam material and increase their chances of passing the AZ-700 Exam successfully.

Importance of Passing the AZ-700 Exam

Passing the AZ-700 exam is important for those aiming to advance their careers in cloud computing. This certification confirms an individual's skills in core networking infrastructure and connectivity services, proving their expertise to potential employers. Successfully completing the AZ-700 exam opens up diverse job opportunities, from cloud architect to network engineer positions.

By obtaining this certification, individuals show their capability to design, implement, and manage secure, scalable, and reliable solutions in the constantly changing field of cloud computing. This certification serves as proof of their knowledge and abilities, helping them stand out in a competitive job market and paving the way for a successful career in cloud computing.

Understanding the Skills Measured

Core Networking Infrastructure

Core networking infrastructure includes routers, switches, firewalls, and access points. These devices support data transfer and connectivity between devices.

IP addressing is vital as it allows devices to communicate using unique identifiers across networks. Proper IP addressing is necessary for effective data transmission.

VNet connectivity is important for secure communication between virtual machines within a network. It creates isolated environments to enhance security and network performance.

These components and technologies are crucial for seamless connectivity and data exchange in a network.

IP Addressing

IP addressing in networking helps identify devices on a network. Subnetting and CIDR notation split large IP address ranges into smaller subnetworks, making IP allocation more efficient and networks run better.

IPv4 is the older standard with a 32-bit address system and is more common, but it's running out of addresses. On the other hand, IPv6 has a 128-bit scheme, offering more unique IP addresses for the growing number of internet-connected devices.

Knowing how IPv4 and IPv6 differ is crucial for managing IP addressing in today's networks and getting ready for the shift to the newer protocol.

Name Resolution

Name resolution is a fundamental process in networking that translates domain names into IP addresses. The primary methods used for this include DNS (Domain Name System), host files, and NetBIOS name resolution.

DNS plays a crucial role by matching domain names with their corresponding IP addresses, allowing users to access websites and resources on the internet seamlessly. It maintains a distributed database of domain names and IP addresses for efficient and accurate name resolution across the network.

Host files provide a local method where specific domain names are mapped to IP addresses manually. NetBIOS name resolution, commonly used in legacy Windows networks, translates computer names into IP addresses.

VNet Connectivity

Virtual network (VNet) connectivity is important for enhancing core networking infrastructure. It provides secure and reliable communication between virtual machines, services, and resources within Azure.

Understanding the differences between site-to-site VPN connections, point-to-site VPN connections, and Azure ExpressRoute is helpful.

  1. Site-to-site VPNs connect on-premises networks to Azure VNets.
  2. Point-to-site VPNs allow individual devices to connect securely.
  3. Azure ExpressRoute offers a private connection to Azure without going over the internet, providing higher reliability and speeds.

Monitoring networks and managing connectivity services can further improve VNet connectivity. This ensures optimal performance and helps identify any potential issues before they become bigger problems. By proactively managing connectivity services, organisations can maintain a seamless and efficient network environment in Azure.


Routing in networking involves using different routing protocols. Some examples include OSPF, EIGRP, and BGP. These protocols help find the best paths for data packets to reach their destination. Factors like speed, cost, and network congestion are considered to establish dynamic routes. This helps networks efficiently direct traffic, leading to better performance and less delay.

Route summarization is important in routing tables. It simplifies the routing process by reducing the number of entries. This technique minimizes the size of routing tables, improving network scalability and using less memory. Summarizing routes helps routers make faster forwarding decisions, making the network infrastructure more efficient. Understanding routing protocols and implementing route summarization are key in ensuring a strong and efficient network routing system.

Monitor Networks

Network administrators have a range of tools to monitor network performance and status. These tools can be network monitoring software, traffic analysis tools, and intrusion detection systems. By using these tools, administrators can track network activity and traffic patterns effectively. This helps to identify any possible issues or threats. Monitoring network activity is important to ensure optimal performance and security.

By checking data packets, network bandwidth, and network flow, administrators can find any strange activity that may signal a security breach or network performance issues. Regular monitoring allows for proactive measures to address any issues before they become bigger problems for the network's functionality or security.

Manage Connectivity Services

Organisations can effectively manage a Site-to-Site VPN connection in their network infrastructure by:

  • Ensuring proper configuration of VPN gateways at each site.
  • Establishing secure communication channels.
  • Monitoring network traffic to detect anomalies or security breaches.

When configuring and monitoring a Point-to-Site VPN connection for secure connectivity services, steps involve:

  • Setting up VPN clients on individual devices.
  • Maintaining updated security protocols.
  • Monitoring network logs for unauthorized access attempts.
  • Implementing two-factor authentication for added security.

Key considerations when implementing Azure ExpressRoute for enhanced connectivity within a network environment include:

  • Assessing bandwidth requirements.
  • Understanding cost implications.
  • Integrating network routing protocols.
  • Establishing Service Level Agreements (SLAs) with providers.
  • Ensuring redundancy measures are in place to avoid service disruptions.

Site-to-Site VPN Connection

Setting up a Site-to-Site VPN connection involves a few key components:

  • VPN concentrators or routers at each site
  • Ensuring compatible encryption protocols are used
  • Configuring appropriate network settings

This connection encrypts data transmissions over the internet, creating a secure tunnel for communication between sites. It helps prevent unauthorized access to sensitive information and reduces the risk of data breaches.

But, there can be challenges like configuration errors, connectivity issues, or incompatible settings between sites. To fix these, you need to:

  • Verify network connectivity
  • Check encryption settings
  • Monitor VPN logs for errors or failures

By addressing these issues quickly, organisations can maintain continuous and secure communication between their remote sites.

Point-to-Site VPN Connection

A Point-to-Site VPN connection is different from a Site-to-Site VPN connection. It allows individual devices to connect to a virtual network.

In Azure, setting up a Point-to-Site VPN involves key components like a virtual network, gateway subnet, gateway IP, and a root certificate uploaded to Azure.

Using this connection type in Azure has benefits. It offers secure access for remote users to resources in the virtual network, eliminating the need for a dedicated site-to-site connection.

Point-to-Site VPN connections provide flexibility and scalability. They cater to organizations with remote workers or external partners needing secure access to the Azure virtual network.

By implementing a Point-to-Site VPN in Azure, network security and accessibility for remote users can improve. This ensures a reliable and protected connection to the virtual environment.

Azure ExpressRoute

Azure ExpressRoute is a private connection service by Azure. It helps businesses securely connect their on-premises networks to Azure resources.

Compared to VPNs or Internet-based connections, ExpressRoute offers lower latency, higher security, and consistent performance.

Benefits include increased network reliability, reduced latency, and enhanced security from the private connection.

Organisations can manage network connectivity effectively with tools like ExpressRoute monitoring and Network Performance Monitor.

These tools track usage, performance metrics, and help troubleshoot connectivity problems for a smooth network experience.

Preparing for the AZ-700 Exam

Study Materials

Study materials for the AZ-700 exam include textbooks, online resources, and practice labs. These resources cover Azure services, security, and compliance.

It's beneficial to have hands-on experience with study materials so candidates can apply theoretical concepts practically. This helps in better understanding and retention.

Practice exams are part of the study materials to track progress and identify weak areas for further review.

Simulating exam conditions through practice exams helps candidates get familiar with the format and types of questions, boosting confidence for the actual exam.

A mix of study materials is essential for effective preparation and increasing success chances.

Practice Exams

Practice exams are helpful for preparing for the AZ-700 exam. They simulate the test environment, format, and questions, making candidates more comfortable with what to expect.

By taking practice exams multiple times, individuals can pinpoint their strengths and weaknesses. This allows them to focus their studies more efficiently.

Hands-on experience is also important for improving exam performance. Applying concepts learned from study materials helps candidates understand the subject better and improve their problem-solving skills.

Engaging in practice exams and gaining practical experience not only boosts confidence but also enhances the chances of success in the AZ-700 exam.

Hands-On Experience

Preparing for the AZ-700 Exam involves gaining practical skills through hands-on experience.

By actively engaging with networking tasks, individuals go beyond theoretical understanding.

Hands-on practice provides insights into network troubleshooting, service configuration, and security protocols.

It enhances one's ability to manage connectivity services effectively.

Individuals gain a deeper understanding of network components like switches, routers, and firewalls.

Applying study concepts to real scenarios promotes a comprehensive grasp of networking concepts.

Those with hands-on experience are better equipped to tackle exam challenges and demonstrate proficiency in managing networking services.

Tips for Passing the AZ-700 Exam

Time Management

Individuals preparing for the AZ-700 exam can follow some simple strategies to manage their time effectively.

Here are some tips to consider:

  • Break study sessions into smaller chunks rather than cramming everything at once. This helps in retaining information better and prevents burnout.
  • Prioritise tasks by focusing on high-impact topics first and allocating more time where needed.
  • Create a study schedule with specific time slots for different subjects or practice tests to stay organised.
  • Set realistic goals and deadlines to track progress and adjust study plans accordingly.
  • Maintain a balance between study time and breaks to avoid exhaustion and ensure productivity.

Over to you

To pass the Microsoft AZ-700 exam, follow these steps:

  • Study the comprehensive study guide provided by Microsoft.
  • Focus on mastering key concepts.
  • Practice with sample questions.
  • Seek additional resources to ensure readiness for the exam.
  • Stay updated on the latest exam requirements.
  • Utilize online communities for support and additional insights.

Readynez offers a 3-day Microsoft Azure Network Engineer Course and Certification Program, providing you with all the learning and support you need to successfully prepare for the exam and certification. The AZ-700 Microsoft Azure Network Engineer course, and all our other Microsoft courses, are also included in our unique Unlimited Microsoft Training offer, where you can attend the Microsoft Azure Network Engineer and 60+ other Microsoft courses for just €199 per month, the most flexible and affordable way to get your Microsoft Certifications.

Please reach out to us with any questions or if you would like a chat about your opportunity with the Microsoft Azure Network Engineer certification and how you best achieve it. 


What is the Microsoft AZ-700 Exam?

The Microsoft AZ-700 Exam is a certification exam for Azure Networking Solutions. It tests one's skills in designing, implementing, and managing Azure networking services, such as Virtual Networks, VPN Gateways, and ExpressRoute.

What topics are covered in the Microsoft AZ-700 Exam?

The Microsoft AZ-700 Exam covers topics such as implementing solutions for containers, monitoring and troubleshooting solutions, and designing identity and security. Other areas include designing data storage solutions and implementing CDN solutions.

How can I effectively prepare for the Microsoft AZ-700 Exam?

To effectively prepare for the Microsoft AZ-700 Exam, start by reviewing the official exam objectives, use Microsoft Learn modules, practice with sample questions, and consider joining study groups or hiring a tutor for personalized guidance.

Are there any recommended study materials for the Microsoft AZ-700 Exam?

Yes, there are recommended study materials for the Microsoft AZ-700 Exam such as official Microsoft documentation, online courses from platforms like Udemy or Coursera, practice tests from MeasureUp or ExamTopics, and study guides like those from Wiley or Pearson.

What is the passing score for the Microsoft AZ-700 Exam?

The passing score for the Microsoft AZ-700 Exam is 700 out of 1000. For example, receiving a score of 700 or above indicates a passing result on the exam.

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