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Find: Time [yr] for 90% consolidation to occur
Load=300 [lb/ft2] Sand 17 26 C) 42 D) 53 γT=100 [lb/ft3] 10 [ft] Clay 25 [ft] OCR=1.0 Find the time, in years, it will take the given soil profile to settle 90% of it’s ultimate consolidation. In this problem, γT=105 [lb/ft3] cV =10 [ft2/yr] CC=0.35 CR=0.05 Impermeable Bedrock
![Find: Time [yr] for 90% consolidation to occur](http://slideplayer.com/slide/16346714/95/images/1/Find%3A+Time+%5Byr%5D+for+90%25+consolidation+to+occur.jpg "Load=300 [lb/ft2] Sand C) 42. D) 53. γT=100 [lb/ft3] 10 [ft] Clay. 25 [ft] OCR=1.0. Find the time, in years, it will take the given soil profile to settle 90% of it’s ultimate consolidation. In this problem, γT=105 [lb/ft3] cV =10 [ft2/yr] CC=0.35. CR=0.05. Impermeable Bedrock.")
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Find: Time [yr] for 90% consolidation to occur
Load=300 [lb/ft2] Sand 17 26 C) 42 D) 53 γT=100 [lb/ft3] 10 [ft] Clay 25 [ft] OCR=1.0 a 10 foot layer of sand sits above --- γT=105 [lb/ft3] cV =10 [ft2/yr] CC=0.35 CR=0.05 Impermeable Bedrock
![Find: Time [yr] for 90% consolidation to occur](http://slideplayer.com/slide/16346714/95/images/2/Find%3A+Time+%5Byr%5D+for+90%25+consolidation+to+occur.jpg "Load=300 [lb/ft2] Sand C) 42. D) 53. γT=100 [lb/ft3] 10 [ft] Clay. 25 [ft] OCR=1.0. a 10 foot layer of sand sits above --- γT=105 [lb/ft3] cV =10 [ft2/yr] CC=0.35. CR=0.05. Impermeable Bedrock.")
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Find: Time [yr] for 90% consolidation to occur
Load=300 [lb/ft2] Sand 17 26 C) 42 D) 53 γT=100 [lb/ft3] 10 [ft] Clay 25 [ft] OCR=1.0 a 25 foot layer of clay, γT=105 [lb/ft3] cV =10 [ft2/yr] CC=0.35 CR=0.05 Impermeable Bedrock
![Find: Time [yr] for 90% consolidation to occur](http://slideplayer.com/slide/16346714/95/images/3/Find%3A+Time+%5Byr%5D+for+90%25+consolidation+to+occur.jpg "Load=300 [lb/ft2] Sand C) 42. D) 53. γT=100 [lb/ft3] 10 [ft] Clay. 25 [ft] OCR=1.0. a 25 foot layer of clay, γT=105 [lb/ft3] cV =10 [ft2/yr] CC=0.35. CR=0.05. Impermeable Bedrock.")
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Find: Time [yr] for 90% consolidation to occur
Load=300 [lb/ft2] Sand 17 26 C) 42 D) 53 γT=100 [lb/ft3] 10 [ft] Clay 25 [ft] OCR=1.0 which is above an impermeable bedrock. γT=105 [lb/ft3] cV =10 [ft2/yr] CC=0.35 CR=0.05 Impermeable Bedrock
![Find: Time [yr] for 90% consolidation to occur](http://slideplayer.com/slide/16346714/95/images/4/Find%3A+Time+%5Byr%5D+for+90%25+consolidation+to+occur.jpg "Load=300 [lb/ft2] Sand C) 42. D) 53. γT=100 [lb/ft3] 10 [ft] Clay. 25 [ft] OCR=1.0. which is above an impermeable bedrock. γT=105 [lb/ft3] cV =10 [ft2/yr] CC=0.35. CR=0.05. Impermeable Bedrock.")
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Find: Time [yr] for 90% consolidation to occur
Load=300 [lb/ft2] Sand 17 26 C) 42 D) 53 γT=100 [lb/ft3] 10 [ft] Clay 25 [ft] OCR=1.0 It is assumed the ground water table is not present. γT=105 [lb/ft3] cV =10 [ft2/yr] CC=0.35 CR=0.05 Impermeable Bedrock
![Find: Time [yr] for 90% consolidation to occur](http://slideplayer.com/slide/16346714/95/images/5/Find%3A+Time+%5Byr%5D+for+90%25+consolidation+to+occur.jpg "Load=300 [lb/ft2] Sand C) 42. D) 53. γT=100 [lb/ft3] 10 [ft] Clay. 25 [ft] OCR=1.0. It is assumed the ground water table is not present. γT=105 [lb/ft3] cV =10 [ft2/yr] CC=0.35. CR=0.05. Impermeable Bedrock.")
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Find: Time [yr] for 90% consolidation to occur
Load=300 [lb/ft2] Sand 17 26 C) 42 D) 53 γT=100 [lb/ft3] 10 [ft] Clay 25 [ft] OCR=1.0 We’ve also been given a number of the soil properties. γT=105 [lb/ft3] cV =10 [ft2/yr] CC=0.35 CR=0.05 Impermeable Bedrock
![Find: Time [yr] for 90% consolidation to occur](http://slideplayer.com/slide/16346714/95/images/6/Find%3A+Time+%5Byr%5D+for+90%25+consolidation+to+occur.jpg "Load=300 [lb/ft2] Sand C) 42. D) 53. γT=100 [lb/ft3] 10 [ft] Clay. 25 [ft] OCR=1.0. We’ve also been given a number of the soil properties. γT=105 [lb/ft3] cV =10 [ft2/yr] CC=0.35. CR=0.05. Impermeable Bedrock.")
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Find: Time [yr] for 90% consolidation to occur
Load=300 [lb/ft2] cv * t Sand T= γT=100 [lb/ft3] 10 [ft] (HD)2 Clay 25 [ft] OCR=1.0 We begin with our time rate of consolidation equation, and solve for our time, little t. γT=105 [lb/ft3] cV =10 [ft2/yr] CC=0.35 CR=0.05 Impermeable Bedrock
![Find: Time [yr] for 90% consolidation to occur](http://slideplayer.com/slide/16346714/95/images/7/Find%3A+Time+%5Byr%5D+for+90%25+consolidation+to+occur.jpg "Load=300 [lb/ft2] cv * t. Sand. T= γT=100 [lb/ft3] 10 [ft] (HD)2. Clay. 25 [ft] OCR=1.0. We begin with our time rate of consolidation equation, and solve for our time, little t. γT=105 [lb/ft3] cV =10 [ft2/yr] CC=0.35. CR=0.05. Impermeable Bedrock.")
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Find: Time [yr] for 90% consolidation to occur
Load=300 [lb/ft2] cv * t Sand T= γT=100 [lb/ft3] 10 [ft] (HD)2 T * (HD)2 Clay t= 25 [ft] OCR=1.0 We’ve been given the consolidation coefficient for the clay layer, cv γT=105 [lb/ft3] cV=10 [ft2/yr] CC=0.35 CR=0.05 Impermeable Bedrock
![Find: Time [yr] for 90% consolidation to occur](http://slideplayer.com/slide/16346714/95/images/8/Find%3A+Time+%5Byr%5D+for+90%25+consolidation+to+occur.jpg "Load=300 [lb/ft2] cv * t. Sand. T= γT=100 [lb/ft3] 10 [ft] (HD)2. T * (HD)2. Clay. t= 25 [ft] OCR=1.0. We’ve been given the consolidation coefficient for the clay layer, cv. γT=105 [lb/ft3] cV=10 [ft2/yr] CC=0.35. CR=0.05. Impermeable Bedrock.")
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Find: Time [yr] for 90% consolidation to occur
Load=300 [lb/ft2] cv * t Sand T= γT=100 [lb/ft3] 10 [ft] (HD)2 T * (HD)2 Clay t= 25 [ft] OCR=1.0 which is 10 feet squared per year. cv γT=105 [lb/ft3] cV=10 [ft2/yr] CC=0.35 CR=0.05 Impermeable Bedrock
![Find: Time [yr] for 90% consolidation to occur](http://slideplayer.com/slide/16346714/95/images/9/Find%3A+Time+%5Byr%5D+for+90%25+consolidation+to+occur.jpg "Load=300 [lb/ft2] cv * t. Sand. T= γT=100 [lb/ft3] 10 [ft] (HD)2. T * (HD)2. Clay. t= 25 [ft] OCR=1.0. which is 10 feet squared per year. cv. γT=105 [lb/ft3] cV=10 [ft2/yr] CC=0.35. CR=0.05. Impermeable Bedrock.")
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Find: Time [yr] for 90% consolidation to occur
Load=300 [lb/ft2] cv * t Sand T= γT=100 [lb/ft3] 10 [ft] (HD)2 T * (HD)2 Clay t= 25 [ft] OCR=1.0 We also know the drainage depth is 25 feet. This is because the impermeable bedrock would prevent water from leaving the clay layer in the downward direction. cv γT=105 [lb/ft3] cV=10 [ft2/yr] CC=0.35 CR=0.05 Impermeable Bedrock
![Find: Time [yr] for 90% consolidation to occur](http://slideplayer.com/slide/16346714/95/images/10/Find%3A+Time+%5Byr%5D+for+90%25+consolidation+to+occur.jpg "Load=300 [lb/ft2] cv * t. Sand. T= γT=100 [lb/ft3] 10 [ft] (HD)2. T * (HD)2. Clay. t= 25 [ft] OCR=1.0. We also know the drainage depth is 25 feet. This is because the impermeable bedrock would prevent water from leaving the clay layer in the downward direction. cv. γT=105 [lb/ft3] cV=10 [ft2/yr] CC=0.35. CR=0.05. Impermeable Bedrock.")
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? Find: Time [yr] for 90% consolidation to occur cv * t T= (HD)2
Load=300 [lb/ft2] cv * t Sand T= γT=100 [lb/ft3] 10 [ft] (HD)2 ? T * (HD)2 Clay t= 25 [ft] OCR=1.0 But we don’t yet know the time factor, big ‘T.’ cv γT=105 [lb/ft3] cV=10 [ft2/yr] CC=0.35 CR=0.05 Impermeable Bedrock
![Find: Time [yr] for 90% consolidation to occur cv * t T= (HD)2](http://slideplayer.com/slide/16346714/95/images/11/Find%3A+Time+%5Byr%5D+for+90%25+consolidation+to+occur+cv+%2A+t+T%3D+%28HD%292.jpg "Load=300 [lb/ft2] cv * t. Sand. T= γT=100 [lb/ft3] 10 [ft] (HD)2. T * (HD)2. Clay. t= 25 [ft] OCR=1.0. But we don’t yet know the time factor, big ‘T.’ cv. γT=105 [lb/ft3] cV=10 [ft2/yr] CC=0.35. CR=0.05. Impermeable Bedrock.")
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? Find: Time [yr] for 90% consolidation to occur cv * t T= (HD)2
Load=300 [lb/ft2] cv * t Sand T= γT=100 [lb/ft3] 10 [ft] (HD)2 ? T * (HD)2 Clay t= 25 [ft] OCR=1.0 When a soil’s average degree of consolidation, ‘U’ is less than 60% of its ultimate consolidation, cv γT=105 [lb/ft3] If U<60% cV=10 [ft2/yr] CC=0.35 CR=0.05 Impermeable Bedrock
![Find: Time [yr] for 90% consolidation to occur cv * t T= (HD)2](http://slideplayer.com/slide/16346714/95/images/12/Find%3A+Time+%5Byr%5D+for+90%25+consolidation+to+occur+cv+%2A+t+T%3D+%28HD%292.jpg "Load=300 [lb/ft2] cv * t. Sand. T= γT=100 [lb/ft3] 10 [ft] (HD)2. T * (HD)2. Clay. t= 25 [ft] OCR=1.0. When a soil’s average degree of consolidation, ‘U’ is less than 60% of its ultimate consolidation, cv. γT=105 [lb/ft3] If U<60% cV=10 [ft2/yr] CC=0.35. CR=0.05. Impermeable Bedrock.")
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? Find: Time [yr] for 90% consolidation to occur π * U2 cv * t T=
Load=300 [lb/ft2] cv * t Sand T= γT=100 [lb/ft3] 10 [ft] (HD)2 ? T * (HD)2 Clay t= 25 [ft] OCR=1.0 the time factor, ‘T,’ is equal to PI times ‘U’ squared, all divided by 4. Where U is a decimal. cv γT=105 [lb/ft3] π * U2 If U<60% then T= cV=10 [ft2/yr] 4 CC=0.35 CR=0.05 Impermeable Bedrock
![Find: Time [yr] for 90% consolidation to occur π * U2 cv * t T=](http://slideplayer.com/slide/16346714/95/images/13/Find%3A+Time+%5Byr%5D+for+90%25+consolidation+to+occur+%CF%80+%2A+U2+cv+%2A+t+T%3D.jpg "Load=300 [lb/ft2] cv * t. Sand. T= γT=100 [lb/ft3] 10 [ft] (HD)2. T * (HD)2. Clay. t= 25 [ft] OCR=1.0. the time factor, ‘T,’ is equal to PI times ‘U’ squared, all divided by 4. Where U is a decimal. cv. γT=105 [lb/ft3] π * U2. If U<60% then T= cV=10 [ft2/yr] 4. CC=0.35. CR=0.05. Impermeable Bedrock.")
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? Find: Time [yr] for 90% consolidation to occur π * U2 cv * t T=
Load=300 [lb/ft2] cv * t Sand T= γT=100 [lb/ft3] 10 [ft] (HD)2 ? T * (HD)2 Clay t= 25 [ft] OCR=1.0 When a soil’s average degree of consolidation is greater than 60%, of its ultimate consolidation, cv γT=105 [lb/ft3] π * U2 If U<60% then T= cV=10 [ft2/yr] 4 CC=0.35 CR=0.05 If U>60% Impermeable Bedrock
![Find: Time [yr] for 90% consolidation to occur π * U2 cv * t T=](http://slideplayer.com/slide/16346714/95/images/14/Find%3A+Time+%5Byr%5D+for+90%25+consolidation+to+occur+%CF%80+%2A+U2+cv+%2A+t+T%3D.jpg "Load=300 [lb/ft2] cv * t. Sand. T= γT=100 [lb/ft3] 10 [ft] (HD)2. T * (HD)2. Clay. t= 25 [ft] OCR=1.0. When a soil’s average degree of consolidation is greater than 60%, of its ultimate consolidation, cv. γT=105 [lb/ft3] π * U2. If U<60% then T= cV=10 [ft2/yr] 4. CC=0.35. CR=0.05. If U>60% Impermeable Bedrock.")
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? Find: Time [yr] for 90% consolidation to occur π * U2 cv * t T=
Load=300 [lb/ft2] cv * t Sand T= γT=100 [lb/ft3] 10 [ft] (HD)2 ? T * (HD)2 Clay t= 25 [ft] OCR=1.0 the time factor, is equal to minus times the log of 100 percent minus ‘U.’ Where ‘U’ is a percent. cv γT=105 [lb/ft3] π * U2 If U<60% then T= cV=10 [ft2/yr] 4 CC=0.35 CR=0.05 then T= *log(100%-U) If U>60% Impermeable Bedrock
![Find: Time [yr] for 90% consolidation to occur π * U2 cv * t T=](http://slideplayer.com/slide/16346714/95/images/15/Find%3A+Time+%5Byr%5D+for+90%25+consolidation+to+occur+%CF%80+%2A+U2+cv+%2A+t+T%3D.jpg "Load=300 [lb/ft2] cv * t. Sand. T= γT=100 [lb/ft3] 10 [ft] (HD)2. T * (HD)2. Clay. t= 25 [ft] OCR=1.0. the time factor, is equal to minus times the log of 100 percent minus ‘U.’ Where ‘U’ is a percent. cv. γT=105 [lb/ft3] π * U2. If U<60% then T= cV=10 [ft2/yr] 4. CC=0.35. CR=0.05. then T= *log(100%-U) If U>60% Impermeable Bedrock.")
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? Find: Time [yr] for 90% consolidation to occur π * U2 cv * t T=
Load=300 [lb/ft2] cv * t Sand T= γT=100 [lb/ft3] 10 [ft] (HD)2 ? T * (HD)2 Clay t= 25 [ft] OCR=1.0 In our problem, the average degree of consolidation is 90%, cv γT=105 [lb/ft3] π * U2 If U<60% then T= cV=10 [ft2/yr] 4 CC=0.35 CR=0.05 then T= *log(100%-U) If U>60% Impermeable Bedrock
![Find: Time [yr] for 90% consolidation to occur π * U2 cv * t T=](http://slideplayer.com/slide/16346714/95/images/16/Find%3A+Time+%5Byr%5D+for+90%25+consolidation+to+occur+%CF%80+%2A+U2+cv+%2A+t+T%3D.jpg "Load=300 [lb/ft2] cv * t. Sand. T= γT=100 [lb/ft3] 10 [ft] (HD)2. T * (HD)2. Clay. t= 25 [ft] OCR=1.0. In our problem, the average degree of consolidation is 90%, cv. γT=105 [lb/ft3] π * U2. If U<60% then T= cV=10 [ft2/yr] 4. CC=0.35. CR=0.05. then T= *log(100%-U) If U>60% Impermeable Bedrock.")
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? Find: Time [yr] for 90% consolidation to occur π * U2 cv * t T=
Load=300 [lb/ft2] cv * t Sand T= γT=100 [lb/ft3] 10 [ft] (HD)2 ? T * (HD)2 Clay t= 25 [ft] OCR=1.0 we we plug this into our equation, and solve for T. cv γT=105 [lb/ft3] π * U2 If U<60% then T= cV=10 [ft2/yr] 4 CC=0.35 CR=0.05 then T= *log(100%-U) If U>60% Impermeable Bedrock
![Find: Time [yr] for 90% consolidation to occur π * U2 cv * t T=](http://slideplayer.com/slide/16346714/95/images/17/Find%3A+Time+%5Byr%5D+for+90%25+consolidation+to+occur+%CF%80+%2A+U2+cv+%2A+t+T%3D.jpg "Load=300 [lb/ft2] cv * t. Sand. T= γT=100 [lb/ft3] 10 [ft] (HD)2. T * (HD)2. Clay. t= 25 [ft] OCR=1.0. we we plug this into our equation, and solve for T. cv. γT=105 [lb/ft3] π * U2. If U<60% then T= cV=10 [ft2/yr] 4. CC=0.35. CR=0.05. then T= *log(100%-U) If U>60% Impermeable Bedrock.")
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Find: Time [yr] for 90% consolidation to occur
Load=300 [lb/ft2] cv * t Sand T= γT=100 [lb/ft3] 10 [ft] (HD)2 Clay T * (HD)2 t= 25 [ft] 25 [ft] OCR=1.0 The time factor is We plug this value into our time rate of consolidation equation, and solve for time. cv cV=10 [ft2/yr] γT=105 [lb/ft3] π * U2 If U<60% then T= cV=10 [ft2/yr] 4 CC=0.35 CR=0.05 then T= *log(100%-U) If U>60% T=0.848
![Find: Time [yr] for 90% consolidation to occur](http://slideplayer.com/slide/16346714/95/images/18/Find%3A+Time+%5Byr%5D+for+90%25+consolidation+to+occur.jpg "Load=300 [lb/ft2] cv * t. Sand. T= γT=100 [lb/ft3] 10 [ft] (HD)2. Clay. T * (HD)2. t= 25 [ft] 25 [ft] OCR=1.0. The time factor is We plug this value into our time rate of consolidation equation, and solve for time. cv. cV=10 [ft2/yr] γT=105 [lb/ft3] π * U2. If U<60% then T= cV=10 [ft2/yr] 4. CC=0.35. CR=0.05. then T= *log(100%-U) If U>60% T=")
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Find: Time [yr] for 90% consolidation to occur
Load=300 [lb/ft2] cv * t Sand T= γT=100 [lb/ft3] 10 [ft] (HD)2 Clay T * (HD)2 t= 25 [ft] 25 [ft] OCR=1.0 It takes the soil 53 years to consolidate 90% of it’s ultimate consolidation settlement. cv cV=10 [ft2/yr] γT=105 [lb/ft3] π * U2 If U<60% then T= cV=10 [ft2/yr] t=53[yr] 4 CC=0.35 CR=0.05 then T= *log(100%-U) If U<60% T=0.848
![Find: Time [yr] for 90% consolidation to occur](http://slideplayer.com/slide/16346714/95/images/19/Find%3A+Time+%5Byr%5D+for+90%25+consolidation+to+occur.jpg "Load=300 [lb/ft2] cv * t. Sand. T= γT=100 [lb/ft3] 10 [ft] (HD)2. Clay. T * (HD)2. t= 25 [ft] 25 [ft] OCR=1.0. It takes the soil 53 years to consolidate 90% of it’s ultimate consolidation settlement. cv. cV=10 [ft2/yr] γT=105 [lb/ft3] π * U2. If U<60% then T= cV=10 [ft2/yr] t=53[yr] 4. CC=0.35. CR=0.05. then T= *log(100%-U) If U<60% T=")
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Find: Time [yr] for 90% consolidation to occur
Load=300 [lb/ft2] 17 26 C) 42 D) 53 cv * t Sand T= γT=100 [lb/ft3] 10 [ft] (HD)2 Clay T * (HD)2 t= 25 [ft] 25 [ft] OCR=1.0 Looking back at our possible solutions, cv cV=10 [ft2/yr] γT=105 [lb/ft3] π * U2 If U<60% then T= cV=10 [ft2/yr] t=53[yr] 4 CC=0.35 CR=0.05 then T= *log(100%-U) If U<60% T=0.848
![Find: Time [yr] for 90% consolidation to occur](http://slideplayer.com/slide/16346714/95/images/20/Find%3A+Time+%5Byr%5D+for+90%25+consolidation+to+occur.jpg "Load=300 [lb/ft2] C) 42. D) 53. cv * t. Sand. T= γT=100 [lb/ft3] 10 [ft] (HD)2. Clay. T * (HD)2. t= 25 [ft] 25 [ft] OCR=1.0. Looking back at our possible solutions, cv. cV=10 [ft2/yr] γT=105 [lb/ft3] π * U2. If U<60% then T= cV=10 [ft2/yr] t=53[yr] 4. CC=0.35. CR=0.05. then T= *log(100%-U) If U<60% T=")
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Find: Time [yr] for 90% consolidation to occur
Load=300 [lb/ft2] 17 26 C) 42 D) 53 cv * t Sand T= γT=100 [lb/ft3] 10 [ft] (HD)2 Clay T * (HD)2 t= 25 [ft] 25 [ft] OCR=1.0 The answer is D. cv cV=10 [ft2/yr] γT=105 [lb/ft3] π * U2 If U<60% then T= cV=10 [ft2/yr] t=53[yr] 4 CC=0.35 CR=0.05 then T= *log(100%-U) If U<60% AnswerD T=0.848
![Find: Time [yr] for 90% consolidation to occur](http://slideplayer.com/slide/16346714/95/images/21/Find%3A+Time+%5Byr%5D+for+90%25+consolidation+to+occur.jpg "Load=300 [lb/ft2] C) 42. D) 53. cv * t. Sand. T= γT=100 [lb/ft3] 10 [ft] (HD)2. Clay. T * (HD)2. t= 25 [ft] 25 [ft] OCR=1.0. The answer is D. cv. cV=10 [ft2/yr] γT=105 [lb/ft3] π * U2. If U<60% then T= cV=10 [ft2/yr] t=53[yr] 4. CC=0.35. CR=0.05. then T= *log(100%-U) If U<60% AnswerD. T=")
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( ) ? γclay=53.1[lb/ft3] Index σ’v = Σ γ d H*C σfinal ρcn= log
Find: σ’v ρc d = 30 feet (1+wc)*γw wc+(1/SG) σ’v = Σ γ d d Sand 10 ft γT=100 [lb/ft3] 100 [lb/ft3] 10 [ft] 20 ft Clay = γsand dsand +γclay dclay A W S V [ft3] W [lb] 40 ft text wc = 37% ? Δh 20 [ft] (5 [cm])2 * π/4 ( ) H*C σfinal ρcn= 1+e σinitial log ‘
![( ) γclay=53.1[lb/ft3] Index σ’v = Σ γ d H*C σfinal ρcn= log](http://slideplayer.com/slide/16346714/95/images/22/%28+%29+%CE%B3clay%3D53.1%5Blb%2Fft3%5D+Index+%CF%83%E2%80%99v+%3D+%CE%A3+%CE%B3+d+H%2AC+%CF%83final+%CF%81cn%3D+log.jpg "Find: σ’v ρc d = 30 feet. (1+wc)*γw. wc+(1/SG) σ’v = Σ γ d. d. Sand. 10 ft. γT=100 [lb/ft3] 100 [lb/ft3] 10 [ft] 20 ft. Clay. = γsand dsand. +γclay dclay. A. W. S. V [ft3] W [lb] 40 ft. text. wc = 37% Δh. 20 [ft] (5 [cm])2 * π/4. ( ) H*C σfinal. ρcn= 1+e σinitial. log. ‘")
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