Question 34 ptsAssuming the groundwater table is at ground surface and the soil bulk unit weight is 20KN/m3. At 2m depth below ground level. The pore water pressure isapproximately:200 kPaO 9.8 kPaO 98 kPaO 19.6 kPaQuestion 44 ptsA soil sample is placed in a 1m long and 10cm diameter tube. A constant supply of water is allowed to flow from inlet to outlet. The total water head at theinlet is 2m and the total water head at the outlet is 1m. The hydraulic conductivity is 0.001 cm/s.Which of the following answer is correct?O The flow velocity is 25 cm/sO The hydraulic gradient in the tube is 2O The flow velocity is 0.001 cm/sO The hydraulic gradient in the tube is 0.001

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Answered: Assuming the groundwater table is at…

Structural Analysis

6th Edition

ISBN:9781337630931

Author:KASSIMALI, Aslam.

Publisher:KASSIMALI, Aslam.

Chapter2: Loads On Structures

Section: Chapter Questions

Problem 1P

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5. A permeameter of 8 cm diameter contains a sample of length 35 cm. Attachments are made it to enable conducting either constant head test or falling head test. The stand pipe used for conducting falling head test has a diameter of 2.5 cm. When constant head test was conducted the loss of head was 100 cm measured on a length of 25 cm. If the rate of flow was 2.7 cc/sec, calculate the coefficient of permeability of soil. If a falling head test is conducted on the same sample in the permeameter find the time taken for head to fall from 150 cm to 100 cm.
If the pore velocity in the intermediate zone is 0,5 m/day and the water content is 0.18. the tensiometer experiment used two points under surface with level difference of 1m. Hydraulic conductivity is 0.02 m/day. The difference in suction head between the two points is equal to
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A circular tube of length 500 mm and cross-sectional area 50 cm2 is placed horizontally and filled with soil A of length 200 mm and soil B of length 300 mm. The head difference between the inlet and outlet of tube is 20 cm. The coefficient of permeabilities of soil A and soil B are 2 mm/s and 2.5 mm/s respectively. The discharge taking place through the soil A is cm3/s.
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Take note: Answer and write your solution on a clean paper clearly. During a flood flow the depth of water in a 12 m wide rectangular channel was found to be 3.5 m and 3.3 m at two sections 300 m apart. The drop in the water-surface elevation was found to be 0.18 m. Assuming Manning’s coefficient to be 0.023, determine the following: a. Average value of k? b. Estimate the flood discharge through the channel ?
A soil sample is placed in a 1m long and 10cm diameter tube. A constant supply of water is allowed to flow from inlet to outlet. The total water head at the inlet is 2m and the total water head at the outlet is 1m. The hydraulic conductivity is 0.001 cm/s. Which of the following answer is correct? O a. The flow velocity is 0.001 cm/s Ob. The flow velocity is 25 cm/s c. The hydraulic gradient in the tube is 2 Od. The hydraulic gradient in the tube is 0.001
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Q. Solve this seepage problem.
Lecturer: Roozbeh Safaeian Amoly Duration: 90 minutes 1. A soil sample 15 cm in diameter is placed in a tube 3 m long. A constant supply of water is allowed to flow into one end of the soil at A, and the outflow at B is collected by a beaker as shown in the figure. Determine (a) hydraulic gradient, (b) flow rate, (c) average velocity, (d) seepage velocity if e 0.7, and (e) hydraulic conductivity, if the average amount of water collected is 3 cm for every 20 seconds. 10 kPa 1.4 m F 1 5m-- 15m-- 1sm-l- 1.5m-| B A Soil 2m Exit Datum 1.75 m 15m

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