(b) A car, travelling from Kangar to Padang Besar, has met an accident near the dam. The driver has managed to get out of the car and closed his door before the car lands at the bottom of the dam on its wheels. The door is 1.2-m high and 0.9-m wide, and the top edge of the door is 15-m below the water surface. (i) Sketch the situation, showing all the parameters given. (ii) From the sketch in Question 1(b)(i), determine the hydrostatic force on the door and the location of the pressure centre. (iii) If the dam is filled to its full capacity, determine the hydrostati the dam. гсе on

(b) A car, travelling from Kangar to Padang Besar, has met an accident near the dam. The driver has managed to get out of the car and closed his door before the car lands at the bottom of the dam on its wheels. The door is 1.2-m high and 0.9-m wide, and the top edge of the door is 15-m below the water surface. (i) Sketch the situation, showing all the parameters given. (ii) From the sketch in Question 1(b)(i), determine the hydrostatic force on the door and the location of the pressure centre. (iii) If the dam is filled to its full capacity, determine the hydrostati the dam. гсе on

Name: (b) A car, travelling from Kangar to Padang Besar, has met an acciden
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Description: (b) A car, travelling from Kangar to Padang Besar, has met an accident near the dam.The driver has managed to get out of the car and closed his door before the carlands at the bottom of the dam on its wheels. The door is 1.2-m high and 0.9-mwide, an

Principles of Heat Transfer (Activate Learning with these NEW titles from Engineering!)

8th Edition

ISBN:9781305387102

Author:Kreith, Frank; Manglik, Raj M.

Publisher:Kreith, Frank; Manglik, Raj M.

Chapter5: Analysis Of Convection Heat Transfer

Section: Chapter Questions

Problem 5.5P: Evaluate the dimensionless groups hcD/k,UD/, and cp/k for water, n-butyl alcohol, mercury, hydrogen,...

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A car, travelling from Kangar to Padang Besar, has met an accident near the dam. The driver has managed to get out of the car and closed his door before the car lands at the bottom of the dam on its wheels. The door is 1.2-m high and 0.9-m wide, and the top edge of the door is 15-m below the water surface (i) (ii) Sketch the situation, showing all the parameters given. From the sketch in (i), determine the hydrostatic force on the door and the location of the pressure centre.
A wooden barge of rectangular cross-section is 8 m wide, 4 m high, and 16 m long. It is transporting in seawater (s 1.03) a total load of 1,500 kN including its own weight and cargo. If a weight of 75 kN (Included in the 1,500-kN) is shifted a distance of 2.5 m to one side, it will cause the barge to go down 450 mm in the wdge of immersion and also rise 450 mm in the corresponding wedge of emersion The barge floats vertically (on an even keel) before the shifting of the weight. Compute how far above the waterline is the center of gravity of the loaded barge. W = 1500 kN 4, D D/2 BF 8 m 25m 60 kN/m 75 kN 1425 k 0.45 4 m Bo o BF 3.42 m
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Moving a relatively large aquarium without being emptied is requested. The tank size is 450x900x450 mm. In this situation; (a) The slope of the free surface under constant acceleration (ax). (b) maximum water height so that water does not spill (c) find the amount
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