Consider the direct shear setup below where the sample is placed in the split blue box, and the box+sample are submerged under water inside a larger container (black box). If the soil is a dense sand,...

Consider the direct shear setup below where<br>the sample is placed in the split blue box, and<br>the box+sample are submerged under water<br>inside a larger container (black box). If the soil<br>is a dense sand, will shearing the sample<br>cause the water table to: A) go up, B) gO<br>down, or C) remain at the same elevation?<br>

Extracted text: Consider the direct shear setup below where the sample is placed in the split blue box, and the box+sample are submerged under water inside a larger container (black box). If the soil is a dense sand, will shearing the sample cause the water table to: A) go up, B) gO down, or C) remain at the same elevation?

Jun 11, 2022

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Consider the direct shear setup below where the sample is placed in the split blue box, and the box+sample are submerged under water inside a larger container (black box). If the soil is a dense sand,...

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