Wide emergency exits on every side of the building enhance the school's tornado resilience by facilitating quick and versatile evacuation, making option C the most suitable choice for Clive's design considerations.
Clive, as an architect aiming to mitigate the impact of future tornadoes in the design of the elementary school, should focus on safety features that enhance the building's resilience. Among the provided options, option C—wide emergency exits placed on every side of the building—is the most suitable choice.
Wide emergency exits serve multiple purposes in tornado-prone areas. Firstly, they facilitate efficient and rapid evacuation, allowing occupants to swiftly exit the building, reducing the risk of injuries and ensuring a more effective response during tornado warnings. The strategic placement of exits on every side of the building ensures accessibility from various directions, considering the unpredictable nature of tornado paths.
In contrast, other options may address different hazards but are less relevant to tornado preparedness. Lightning rods (option A) primarily protect against lightning strikes, which, while a concern, may not be the primary threat during a tornado. A windowless basement (option B) might provide shelter, but it limits emergency egress options and may not be suitable for all tornado scenarios. Solid steel fire escapes (option D) are designed for fire safety and may not be the most effective means of evacuation during a tornado.
The question probable may be:
Clive is an architect and is designing a new elementary school. He is considering ways to design the building to reduce the effects of future tornadoes. Which of the following is a design feature that could help Clive achieve this goal? A. a series of lightning rods on the building's roof B. a windowless basement at the building's foundation C. wide emergency exits placed on every side of the building D. solid steel fire escapes reaching the ground outside of each upstairs window