_____ can create pressure that is greater than the structural strength of concrete, which can be from 2,000 psi to 3,000 psi.

The key concept here revolves around understanding how different types of pressures can impact structures made of concrete. Hydrostatic pressure is a crucial factor in this context. It refers to the pressure exerted by a fluid at equilibrium due to the force of gravity. In scenarios involving water, this pressure can indeed build up and exceed the structural strength of concrete, especially in situations like flooding or when water accumulates against a concrete wall.

Concrete typically has a compressive strength ranging from 2,000 psi to 3,000 psi, meaning that when the hydrostatic pressure reaches or exceeds these levels, the potential for structural failure increases. This process can lead to cracking, hydraulic heave, or even structural collapse if the conditions persist without remediation.

Understanding the implications of hydrostatic pressure is essential for proper structural design and maintenance, especially in areas prone to significant water exposure or where the ground may be saturated.