![QUESTION 5 The 4m diameter circular gate is located in the nclined wall of a large reservoir containing water98okN/) The gate is mounted on a shaft along its honizontal diameter For a water depth of 10m above the shaft 51 Draw a clear sketch of a problem 52 Determine the magnitude and locatron of the resultant force exerted on the gate by the water Determine the moment that would have to be applied to the shaft to open the gate and draw a free body diagram (10) 53 (10) [25]](http://img.homeworklib.com/questions/62fbf4c0-03a3-11ec-b1f8-6fb8295e7e6b.png?x-oss-process=image/resize,w_560)
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QUESTION 5 The 4m diameter circular gate is located in the nclined wall of a large...
Example The 4-m-diameter circular gate of the- figure is located in the inclined wall of a...
Example The 4-m-diameter circular gate of the- figure is located in the inclined wall of a large reservoir containing water (y 9.80 kN/m3 gp along its horizontal diameter, and the water depth is 10 m at the shaft. 60° ). The gate is mounted on a shaft O Determine: Cb) the magnitude and location of the resultant A Center of pressure force exerted on the gate by the water the moment that would have to be applied to the shaft...
SECTION C 1. FigureQl shows a 4m diameter circular gatelocated on an inclined wal. The gate is mounted on a shaft al...
SECTION C 1. FigureQl shows a 4m diameter circular gatelocated on an inclined wal. The gate is mounted on a shaft along its horizontal diameter. Calculate: (a) Magnitude and location of resultant force, FK (b) Moment that would be applied to shaft to open the gate Weler be 10 FR r.esTA .C.G 4m I000 x10, T2 Fig. Q1 [15 mks
SECTION C 1. FigureQl shows a 4m diameter circular gatelocated on an inclined wal. The gate is mounted on a...
An inclined wall of a large water storage facility is shown below. The wall has a...
An inclined wall of a large water storage facility is shown below. The wall has a circular gate built into it. The gate rotates about a central shaft and is held closed by stop. For the conditions shown below: a (a) On a neat diagram draw the pressure distribution acting on the circular gate due to the water in the tank. [4 Marks] (b)Determine the magnitude, direction and location of the water force acting on the circular gate. [9 Marks]...
A rectangular gate that is 2m wide is located in the vertical wall of a tank...
A
rectangular gate that is 2m wide is located in the vertical wall of
a tank containing water as shown in the figure at the right copied
from the text. It’s desired to have the gate open automatically
when the depth of the water above the top of the gate reaches 10m.
Please answer the following: a) At what distance, d, should the
frictionless horizontal shaft be located? b) What is the magnitude
of the force on the gate when...
An inclined circular gate controls the flow of water across a storage structure (see Figure 1)....
An inclined circular gate controls the flow of water across a
storage structure (see Figure 1). The gate is 1.0
m in diameter with water on one side. Determine:
the total resultant force acting on the gate
the location of the center of pressure
the resisting moment at the pivot or hinge (if located at
the upper edge of the gate).
Question 1 An inclined circular gate controls flow of water across a storage structure (see Figure 1). The gate...
Dam Wall (7 marks) Fig 6 6. A circular gate AB of diameter 4 m is...
Dam Wall (7 marks) Fig 6 6. A circular gate AB of diameter 4 m is designed to close the water flowing out from the sloping wall of a dam structure. The gate is hinged at A as in Fig 6. Calculate (a) the magnitude of hydrostatic force acting on the circular gate and (b) the position of hydrostatic force from the water surface. (6 marks) 7. Using the data in Fig 7, (a) find va if vb is 3...
A 5-ft diameter 300-lb circular hatch is located on a submarine, as shown. The submarine is...
A 5-ft diameter 300-lb circular hatch is located on a submarine,
as shown. The submarine is in sea water with a specific weight of
64 lb/ft3 . Determine the following: (a) the resultant force on the
hatch due to the water pressure (b) the location of the resultant
force (distance below the water surface). (c) the magnitude of the
force, F, which should be applied to open the hatch when it is
submerged as shown. It is hinged at the...
QUESTION 3 Figure below indicated that a plug with cone shape used to plugged a hole...
QUESTION 3 Figure below indicated that a plug with cone shape used to plugged a hole of 45 cm radius at one side of a tank that containing X fluid (SG-0.8). The cone is 1.5 m height and I.I m bottom diameter. Depth of cone center point to the surface liquid is 10m. a) Draw the distribution of pressure onto the plug b) Determine the force acts onto the plug Cone 10 m QUESTION 4 Figure below shows a water...
please solve with details Question#1140Marksl The shaft shown in the figure is rotating at 650 rpm and it receives 5592.75 W through a flexible coupling at its right end. The power is delivered t...
please solve with details
Question#1140Marksl The shaft shown in the figure is rotating at 650 rpm and it receives 5592.75 W through a flexible coupling at its right end. The power is delivered to an adjacent shaft through a single helical gear B having a normal pressure angle of 20° and a helix angle of 15o. The pitch diameter for the gear is 105.1814 mm (4.141 in). A spacer is used to position the gear relative to bearing C. The...
Figure 1 shows the layout of countershaft used to transmit power to a blower through a...
Figure 1 shows the layout of countershaft used to transmit power to a blower through a pulley drive (4-5). Pulley (driving sheave) 4 has a diameter of 125-mm and pulley (driven sheave) 5 has a diameter of 75 mm. Pulley 5 is mounted vertically below pulley 4 (as shown in the figure). Belt tension on the loose side is 20% of the tension on the tight side. A power of 7.5 kW is transmitted via the gear set (2-3) from...
Example The 4-m-diameter circular gate of the- figure is located in the inclined wall of a large reservoir containing water (y 9.80 kN/m3 gp along its horizontal diameter, and the water depth is 10 m at the shaft. 60° ). The gate is mounted on a shaft O Determine: Cb) the magnitude and location of the resultant A Center of pressure force exerted on the gate by the water the moment that would have to be applied to the shaft...
SECTION C 1. FigureQl shows a 4m diameter circular gatelocated on an inclined wal. The gate is mounted on a shaft along its horizontal diameter. Calculate: (a) Magnitude and location of resultant force, FK (b) Moment that would be applied to shaft to open the gate Weler be 10 FR r.esTA .C.G 4m I000 x10, T2 Fig. Q1 [15 mks
SECTION C 1. FigureQl shows a 4m diameter circular gatelocated on an inclined wal. The gate is mounted on a...
An inclined wall of a large water storage facility is shown below. The wall has a circular gate built into it. The gate rotates about a central shaft and is held closed by stop. For the conditions shown below: a (a) On a neat diagram draw the pressure distribution acting on the circular gate due to the water in the tank. [4 Marks] (b)Determine the magnitude, direction and location of the water force acting on the circular gate. [9 Marks]...
A
rectangular gate that is 2m wide is located in the vertical wall of
a tank containing water as shown in the figure at the right copied
from the text. It’s desired to have the gate open automatically
when the depth of the water above the top of the gate reaches 10m.
Please answer the following: a) At what distance, d, should the
frictionless horizontal shaft be located? b) What is the magnitude
of the force on the gate when...
An inclined circular gate controls the flow of water across a
storage structure (see Figure 1). The gate is 1.0
m in diameter with water on one side. Determine:
the total resultant force acting on the gate
the location of the center of pressure
the resisting moment at the pivot or hinge (if located at
the upper edge of the gate).
Question 1 An inclined circular gate controls flow of water across a storage structure (see Figure 1). The gate...
Dam Wall (7 marks) Fig 6 6. A circular gate AB of diameter 4 m is designed to close the water flowing out from the sloping wall of a dam structure. The gate is hinged at A as in Fig 6. Calculate (a) the magnitude of hydrostatic force acting on the circular gate and (b) the position of hydrostatic force from the water surface. (6 marks) 7. Using the data in Fig 7, (a) find va if vb is 3...
A 5-ft diameter 300-lb circular hatch is located on a submarine,
as shown. The submarine is in sea water with a specific weight of
64 lb/ft3 . Determine the following: (a) the resultant force on the
hatch due to the water pressure (b) the location of the resultant
force (distance below the water surface). (c) the magnitude of the
force, F, which should be applied to open the hatch when it is
submerged as shown. It is hinged at the...
QUESTION 3 Figure below indicated that a plug with cone shape used to plugged a hole of 45 cm radius at one side of a tank that containing X fluid (SG-0.8). The cone is 1.5 m height and I.I m bottom diameter. Depth of cone center point to the surface liquid is 10m. a) Draw the distribution of pressure onto the plug b) Determine the force acts onto the plug Cone 10 m QUESTION 4 Figure below shows a water...
please solve with details
Question#1140Marksl The shaft shown in the figure is rotating at 650 rpm and it receives 5592.75 W through a flexible coupling at its right end. The power is delivered to an adjacent shaft through a single helical gear B having a normal pressure angle of 20° and a helix angle of 15o. The pitch diameter for the gear is 105.1814 mm (4.141 in). A spacer is used to position the gear relative to bearing C. The...
Figure 1 shows the layout of countershaft used to transmit power to a blower through a pulley drive (4-5). Pulley (driving sheave) 4 has a diameter of 125-mm and pulley (driven sheave) 5 has a diameter of 75 mm. Pulley 5 is mounted vertically below pulley 4 (as shown in the figure). Belt tension on the loose side is 20% of the tension on the tight side. A power of 7.5 kW is transmitted via the gear set (2-3) from...
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