Q3 A canal is dug parallel to a river, as shown in Figure Q3. A sandy-silt seam of average thickness 0.5 m cuts across the otherwise impermeable clay. The average vertical and horizontal hydraulic conductivities are 1.5 × 10-5 cm/s and 15 x 10-5 cm/s, respectively. Assuming a 1-m length of canal, determine the flow rate of water from the canal to the river. [Budhu M. Soil Mechanics & Foundations (3E), p. 129] -30 m- Canal Clay -EL: 99.5 m -EL: 99.0 m EL: 98.0 m ▼ EL: 96.48 m -Sandy-silt seam River 0.5 m (average) Figure Q3 :
Q3 A canal is dug parallel to a river, as shown in Figure Q3. A sandy-silt seam of average thickness 0.5 m cuts across the otherwise impermeable clay. The average vertical and horizontal hydraulic conductivities are 1.5 × 10-5 cm/s and 15 x 10-5 cm/s, respectively. Assuming a 1-m length of canal, determine the flow rate of water from the canal to the river. [Budhu M. Soil Mechanics & Foundations (3E), p. 129] -30 m- Canal Clay -EL: 99.5 m -EL: 99.0 m EL: 98.0 m ▼ EL: 96.48 m -Sandy-silt seam River 0.5 m (average) Figure Q3 :
Chapter2: Loads On Structures
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![Q3
A canal is dug parallel to a river, as shown in Figure Q3. A sandy-silt seam of average
thickness 0.5 m cuts across the otherwise impermeable clay. The average vertical and
horizontal hydraulic
conductivities
1.5 x 10-5 cm/s and 15 x 10-5 cm/s,
are
respectively. Assuming a 1-m length of canal, determine the flow rate of water from the
canal to the river.
[Budhu M. Soil Mechanics & Foundations (3E), p. 129]
30 m
Canal
Clay:
EL: 99.5 m
EL: 99.0 m
EL: 98.0 m
EL: 96.48 m
LSandy-silt seam
River
0.5 m (average)
Figure Q3 :](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F3a003d08-790a-4816-9605-b7bf3b56208d%2F3f540830-f06f-45e9-b60f-1e899f29358c%2F86i7qvg_processed.png&w=3840&q=75)
Transcribed Image Text:Q3
A canal is dug parallel to a river, as shown in Figure Q3. A sandy-silt seam of average
thickness 0.5 m cuts across the otherwise impermeable clay. The average vertical and
horizontal hydraulic
conductivities
1.5 x 10-5 cm/s and 15 x 10-5 cm/s,
are
respectively. Assuming a 1-m length of canal, determine the flow rate of water from the
canal to the river.
[Budhu M. Soil Mechanics & Foundations (3E), p. 129]
30 m
Canal
Clay:
EL: 99.5 m
EL: 99.0 m
EL: 98.0 m
EL: 96.48 m
LSandy-silt seam
River
0.5 m (average)
Figure Q3 :
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