Amazon Web Services SAA-C03 Exam With Confidence Using Practice Dumps

AWS best practices strongly recommend enabling MFA on the root user, but they also emphasize planning for MFA device loss. AWS allows the configuration of multiple MFA devices for the root user, which provides redundancy and ensures continued access in disaster scenarios. Option B directly addresses the requirement by enabling a backup authentication method without weakening security controls.

Adding multiple MFA devices ensures that if one device is lost, damaged, or unavailable, the organization can still authenticate securely using the secondary device. This approach maintains strong security while eliminating the risk of permanent root account lockout. It also avoids time-consuming recovery processes that require contacting AWS Support and proving account ownership.

Option A is not sufficient because IAM administrator accounts do not replace root access and cannot perform certain root-only actions. Options C and D are not feasible because new administrator accounts or policy changes cannot be made if root access is already lost.

Therefore, B is the correct and AWS-recommended solution to ensure uninterrupted, secure access to the root account while maintaining MFA protection.

The correct answer is A because the application must accept TLS connections from IPv4 clients , provide outbound internet access , present a single entry point , and maintain the lowest possible attack surface . Placing the Amazon ECS tasks in private subnets is the key security design decision because it prevents direct inbound access from the internet to the tasks themselves. The public-facing entry point is the load balancer, while outbound internet access for the private tasks is provided through a NAT gateway in the public subnet.

A Network Load Balancer (NLB) is well suited for handling TLS at Layer 4 and can expose a single public endpoint for client connections. With awsvpc network mode, each ECS task receives its own elastic network interface, making it straightforward to place tasks securely in private subnets while still registering them as targets behind the load balancer.

Option B is incorrect because an egress-only internet gateway is for IPv6 outbound traffic only , while the requirement specifically mentions IPv4 clients . Option C is incorrect because placing ECS tasks in public subnets increases the attack surface by exposing application infrastructure more directly to the internet. Option D is also incorrect for two reasons: it uses an egress-only internet gateway , which does not satisfy IPv4 outbound needs, and it places tasks in public subnets , which violates the goal of minimizing exposure.

AWS security design guidance emphasizes reducing exposure by placing application workloads in private subnets and exposing only the required front-end endpoint. Therefore, a public NLB with private ECS tasks and a NAT gateway is the most secure and appropriate architecture.

For bidirectional communication such as chat applications, Amazon API Gateway WebSocket API is the correct service. WebSocket APIs allow clients to establish long-lived connections and exchange messages with the backend Lambda functions in real time.

HTTP APIs and REST APIs are suitable for request-response models, not continuous two-way communication. CloudFront cannot maintain stateful WebSocket connections, so only Option C fits the requirements for a real-time, bidirectional application.