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VMware VCAP-NV Design (3V0-41.22)

By Webmaster Certland English 📝 340 questions 🔄 Updated on April 13, 2026

Practice exam for the VMware Certified Advanced Professional - Network Virtualization Design (3V0-41.22). Covers NSX architecture design, logical network and routing design, security design, multi-site and advanced services design, and operations and performance design.

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Sample Questions — VMware VCAP-NV Design (3V0-41.22)

5 free sample questions from this practice exam. Correct answers are highlighted.

1. An architect is designing an NSX-T Data Center deployment for a large enterprise with 2,000 hypervisor hosts and 500 Tier-1 gateways. The environment must support high availability for the management plane. Which NSX Manager cluster sizing and deployment design BEST meets these scale requirements?

A Deploy a 3-node NSX Manager cluster using medium form factor with DRS anti-affinity rules across separate ESXi hosts
B Deploy a 3-node NSX Manager cluster using large form factor with DRS anti-affinity rules across separate ESXi hosts in different failure domains ✓ Correct
C Deploy a 3-node NSX Manager cluster using large form factor on a single ESXi host with local storage for low latency
D Deploy a single NSX Manager node using large form factor with automated snapshots for disaster recovery

2. An architect is designing an NSX-T Data Center deployment for a government agency that requires FIPS 140-2 compliance. The design must ensure all management plane communications use FIPS-validated cryptographic modules. Which design consideration is MOST critical?

A Enable FIPS 140-2 compliance mode during NSX Manager cluster deployment to ensure all internal communications use FIPS-validated modules ✓ Correct
B Deploy a third-party SSL offloading proxy in front of the NSX Manager cluster to enforce FIPS-compliant TLS connections
C Configure TLS 1.2 with AES-256 on the NSX Manager load balancer VIP to meet FIPS encryption requirements
D Establish IPsec tunnels between all NSX Manager nodes using FIPS-validated encryption algorithms

3. An architect is designing the NSX-T infrastructure for a Kubernetes environment using Tanzu. The design must provide network isolation between Kubernetes namespaces while allowing shared egress through a common Tier-0 gateway. Which NSX-T integration design BEST supports this requirement?

A Create VLAN-backed segments for each Kubernetes namespace and use physical router ACLs for inter-namespace isolation
B Deploy NCP or Antrea with NSX integration to auto-provision Tier-1 gateways and overlay segments per namespace with shared Tier-0 egress ✓ Correct
C Use a single overlay segment for all namespaces and enforce isolation through Kubernetes Network Policies via Calico CNI
D Manually create Tier-1 gateways and segments for each namespace in NSX Manager before creating the Kubernetes namespace

4. A company is migrating from NSX-V to NSX-T Data Center. The existing environment uses VXLAN-backed logical switches. The architect must design the transport zone strategy for NSX-T. The environment has three vSphere clusters: Management, Compute-A, and Compute-B. Only Compute-A and Compute-B should share overlay segments. Which transport zone design is MOST appropriate?

A Create a single overlay transport zone spanning all three clusters and use segment profiles to restrict connectivity
B Create three separate overlay transport zones, one per cluster, and use Tier-0 routing to connect Compute-A and Compute-B
C Create one overlay transport zone for Compute-A and Compute-B, a separate overlay transport zone for Management, and VLAN transport zones for Edge uplinks ✓ Correct
D Create VLAN transport zones for all clusters and use VLAN trunking to provide segment isolation between clusters

5. An architect is designing an NSX-T deployment where Edge nodes must be placed in a dedicated Edge rack with specific physical network connectivity. The Edge rack has two Top-of-Rack (ToR) switches. Each Edge node has four 25 GbE interfaces. The design must maximize both redundancy and throughput for north-south traffic. Which physical connectivity design is MOST appropriate?

A Connect all four interfaces to a single ToR switch using LACP bonding for maximum single-path throughput
B Connect two interfaces to each ToR switch and configure ECMP with BGP peering to both ToRs for redundancy and load distribution ✓ Correct
C Connect one interface to each ToR switch for redundancy and leave two interfaces unused as hot spares
D Bond all four interfaces into a single MLAG across both ToR switches for a single high-bandwidth logical link

VMware VCAP-NV Design (3V0-41.22) — Frequently Asked Questions

How many practice questions does the VMware VCAP-NV Design (3V0-41.22) prep include?

CertLand's VMware VCAP-NV Design (3V0-41.22) prep includes 340 exam-style questions covering every domain, each with a detailed explanation of why every answer option is correct or incorrect.

What score do I need to pass the VMware VCAP-NV Design (3V0-41.22)?

The VMware VCAP-NV Design (3V0-41.22) passing score is 75%. CertLand scores every practice attempt the same way and breaks your results down by domain, so you know exactly where you stand before exam day.

Can I try VMware VCAP-NV Design (3V0-41.22) questions for free?

Yes. You can answer 5 real VMware VCAP-NV Design (3V0-41.22) questions free — no account and no credit card needed — and see full explanations on the results page. You can also run a free Radar readiness diagnostic for a personalized study plan.

How long is each VMware VCAP-NV Design (3V0-41.22) practice attempt?

Each full VMware VCAP-NV Design (3V0-41.22) mock attempt on CertLand is timed at 175 minutes, mirroring real exam conditions so you build the pacing you need to finish on time.

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