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ate as shown in the figure. Find the hydrostatic force 3 m 12 m tomt
Hydrostatic Force- Inclined Surface 3. The round viewing window shown (D=0.8 m) is situated in a...
Hydrostatic Force- Inclined Surface 3. The round viewing window shown (D=0.8 m) is situated in a large tank of seawater (SG 1.03). If h= 2m, and the window is angled at 60° from the horizontal, find the hydrostatic force acting on the window, and locate the corresponding center of pressure (CP) Window Sea water 60
Q2) Gate AB in the Figure 2 is semicircular. Find the total hydrostatic force and its line of action on the gate. (10 m...
Q2) Gate AB in the Figure 2 is semicircular. Find the total hydrostatic force and its line of action on the gate. (10 marks) Y-9790 N/m3 Note: for the centroid and moment of inertial of the semicircle refer to Appendix L in your text book 5 m Water Gate: 3 m Side view Figure 2
Q2) Gate AB in the Figure 2 is semicircular. Find the total hydrostatic force and its line of action on the gate. (10 marks) Y-9790...
HYDROSTATIC FORCE
A vertical dam has a semicircular gate as shown in the figure below. Find the hydrostatic force against the gate. (Round your answer to the nearest wholenumber.)1 N
Q2) Gate AB in the Figure 2 is semicircular. Find the total hydrostatic force and its line of action on the gate Yo9790...
Q2) Gate AB in the Figure 2 is semicircular. Find the total hydrostatic force and its line of action on the gate Yo9790 N/m2 (10 marks) Note: for the centroid and moment of inertial of the semicircle, refer to Appendix L in your text book 5 m Water Gate: Side view 3 m B Figure 2
Q2) Gate AB in the Figure 2 is semicircular. Find the total hydrostatic force and its line of action on the gate Yo9790 N/m2...
Find hydrostatic Force
A semicircular plate with radius 7 m is submerged vertically in water so that the top is 2 m above the surface. Express the hydrostatic force against one side of theplate as an integral and evaluate it. Use 9.8 m/s2 for the acceleration due to gravity. The weight density of water is 1000 kg/m3.
2 The force acting on a particle varies as shown in the figure below. Find the...
2
The force acting on a particle varies as shown in the figure below. Find the work done by the force on the particle as it moves from x = 0 m to x = 8 m. Find the work done by the force on the particle as it moves from x = 8 m to x = 12 m. Find the work done by the force on the particle as it moves from x = 0 m to x...
4) The Dam 4) Find the Force Due to hydrostatic Pressure for the dam at flood...
4) The Dam 4) Find the Force Due to hydrostatic Pressure for the dam at flood stage whose scale drawing (one unit 10 yards) is represented to the left. Find data points and use your Graphing Calculator to generate a best fit equation for the curved edge at the bottom of the dam. The Water level at flood stage would be 100 yards above the origin as shown. IA Foof
4) The Dam 4) Find the Force Due to hydrostatic...
Name ate Partners HOMEWORK FOR LAB 8: ONE-DIMENSIONAL COLLISIONS Find the impulse of the force shown...
Name ate Partners HOMEWORK FOR LAB 8: ONE-DIMENSIONAL COLLISIONS Find the impulse of the force shown on the force-time graph below. Explain how you found your anser 1. Tme (o 2 An object of mass 25 kg is moving in the negative x direction at a velocity of 2.0 m/s. It experiences the force shown above for 3 S. What is the final velocity after the object has experienced the impulse Show your ca culations. 3 A ball of mass...
11. Determine ddistance of the hydrostatic force from hinge 11. SMTKN 81.757 kN 12. Compute weight...
11. Determine ddistance of the hydrostatic force from hinge 11. SMTKN 81.757 kN 12. Compute weight "w", fastened to the center of the gate, is necessary barely to keep the gate from opening. What will be the resultant reaction at the hinge 13. SITUATIONS A cylindrical log having a diameter of 2m and a length of 4m is placed in the position shown in figure below. Sp. Gr. of ol is 0.8. Determine Vertical component of the force acting on...
3. The inclined surface shown in Figure below is hinged along edge A. The surface is...
3. The inclined surface shown in Figure below is hinged along edge A. The surface is 5 m wide. a. Determine the resultant force, Fr, of the water on the inclined surface. (15 p) b. Find the location of FR (center of pressure) (15 p) D = 2 m 130° L = 4 m Net hydrostatic pressure distribution on gate.
Hydrostatic Force- Inclined Surface 3. The round viewing window shown (D=0.8 m) is situated in a large tank of seawater (SG 1.03). If h= 2m, and the window is angled at 60° from the horizontal, find the hydrostatic force acting on the window, and locate the corresponding center of pressure (CP) Window Sea water 60
Q2) Gate AB in the Figure 2 is semicircular. Find the total hydrostatic force and its line of action on the gate. (10 marks) Y-9790 N/m3 Note: for the centroid and moment of inertial of the semicircle refer to Appendix L in your text book 5 m Water Gate: 3 m Side view Figure 2
Q2) Gate AB in the Figure 2 is semicircular. Find the total hydrostatic force and its line of action on the gate. (10 marks) Y-9790...
Q2) Gate AB in the Figure 2 is semicircular. Find the total hydrostatic force and its line of action on the gate Yo9790 N/m2 (10 marks) Note: for the centroid and moment of inertial of the semicircle, refer to Appendix L in your text book 5 m Water Gate: Side view 3 m B Figure 2
Q2) Gate AB in the Figure 2 is semicircular. Find the total hydrostatic force and its line of action on the gate Yo9790 N/m2...
2
The force acting on a particle varies as shown in the figure below. Find the work done by the force on the particle as it moves from x = 0 m to x = 8 m. Find the work done by the force on the particle as it moves from x = 8 m to x = 12 m. Find the work done by the force on the particle as it moves from x = 0 m to x...
4) The Dam 4) Find the Force Due to hydrostatic Pressure for the dam at flood stage whose scale drawing (one unit 10 yards) is represented to the left. Find data points and use your Graphing Calculator to generate a best fit equation for the curved edge at the bottom of the dam. The Water level at flood stage would be 100 yards above the origin as shown. IA Foof
4) The Dam 4) Find the Force Due to hydrostatic...
Name ate Partners HOMEWORK FOR LAB 8: ONE-DIMENSIONAL COLLISIONS Find the impulse of the force shown on the force-time graph below. Explain how you found your anser 1. Tme (o 2 An object of mass 25 kg is moving in the negative x direction at a velocity of 2.0 m/s. It experiences the force shown above for 3 S. What is the final velocity after the object has experienced the impulse Show your ca culations. 3 A ball of mass...
11. Determine ddistance of the hydrostatic force from hinge 11. SMTKN 81.757 kN 12. Compute weight "w", fastened to the center of the gate, is necessary barely to keep the gate from opening. What will be the resultant reaction at the hinge 13. SITUATIONS A cylindrical log having a diameter of 2m and a length of 4m is placed in the position shown in figure below. Sp. Gr. of ol is 0.8. Determine Vertical component of the force acting on...
3. The inclined surface shown in Figure below is hinged along edge A. The surface is 5 m wide. a. Determine the resultant force, Fr, of the water on the inclined surface. (15 p) b. Find the location of FR (center of pressure) (15 p) D = 2 m 130° L = 4 m Net hydrostatic pressure distribution on gate.
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