Free VMware 2V0-32.24 Actual Exam Questions - Question 6 Discussion

D imo, E is valid too since single nodes can have integrated load balancers, multi-node always needs external.

I agree with skipping B and F since integrated load balancers don't support multi-node beyond one node. So, A, C, and E seem valid because multi-node needs external load balancers, and single-node can use the integrated one or none. E

It’s definitely not B or F since integrated load balancers don’t support multi-node setups beyond single nodes. D is solid because a single node can run fine without any load balancer. A and C make sense too because once you have more than one node, you need an external load balancer to handle traffic properly. E sounds wrong since the integrated load balancer is mainly for single-node scenarios without clustering, so it wouldn’t apply here. So, A, C, and D fit best based on how the load balancers are used with different deployment sizes.

Maybe A, C, and D. Single node can run without a load balancer (D), and multi-node setups need external ones, so A and C fit that. Integrated load balancers are usually just for single-node but not multi-node cases.

Makes sense that integrated load balancers only work for single-node, so E sounds good here, not B.

Actually, B doesn’t seem right because the integrated load balancer is meant for single-node setups only, not for two-node deployments. So E is possible since single-node might use the integrated load balancer, but B is unlikely. Also, F with ten nodes seems excessive and probably unsupported anyway. So I’d go with A, C, and D for sure, and possibly E if integrated load balancer works on single node. That matches typical deployment best practices I’ve seen.

D imo, single node without a load balancer is the simplest and definitely valid. Also, three nodes need an external load balancer (C), so A and C seem right too. Integrated load balancers don’t really fit multi-node setups.

A/C/D? Single node without a load balancer (D) is definitely valid, and from what I recall, three nodes usually require an external load balancer (C). Single node with external load balancer (A) should work too.

D imo, A, C, and D are solid choices because you can run a single node without a load balancer or with an external one, and three-node clusters usually need an external load balancer. Two nodes with integrated doesn’t fit well.

Option A, C, and D seem right to me. From what I remember, two nodes with the integrated load balancer (B) isn’t a supported setup; usually, you either do single-node or three+ nodes with an external load balancer. Also, ten nodes (F) sounds excessive and probably not supported with the integrated load balancer. Single nodes can definitely run without or with an external load balancer, so D fits. Overall, A, C, and D cover the typical supported architectures.

A, C, and D make sense since single nodes can run without load balancers or with external ones, and three nodes often need an external load balancer. The integrated one usually doesn’t support two or ten nodes well.

Maybe A, C, and D.