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Phoblem-4 Calculate the horigotal aud Vertical Components of the hy dro staie force the guarter-Circle Panel at the...
Question 19 4 pts Find the fluid force on the vertical side of the tank, where...
Question 19 4 pts Find the fluid force on the vertical side of the tank, where the dimensions are given in feet. Assume that the tank is full of water. Note: The density of water is 62.4 lbs per cubic foot. -5 3 2340 lb 468 lb 62.4 lb 249.6 lb 1404 lb
Problem 4 (25 pts): The frame supports 75-kg cylinder. Determine the horizontal and vertical components of...
Problem 4 (25 pts): The frame supports 75-kg cylinder. Determine the horizontal and vertical components of force at pins B and C. (Determine the force components at pins B and C) 20. 3m 2m 0.5m
4. Calculate the centripetal force a 2kg mass experiences as it spins at the constant tangential...
4. Calculate the centripetal force a 2kg mass experiences as it spins at the constant tangential speed of 5m/s along a circular path of radius r-2m. oscillation) to the 5. What are the spring force and its direction at a distance of 0.35m (while in left of the equilibrium position if k=32 kg/s??
calculate vertical reaction force at point G for the truss shown in the figure assume L=5m,...
calculate vertical reaction force at point G for the truss
shown in the figure assume L=5m, F1=11 kn, F2= 28 kn.
TE L(m) с E F 4 m B F F. 4 m G 4 m
Please show full working so I can learn to do it myself. Thank you! A tank...
Please show full working so I can learn to do it myself. Thank
you!
A tank with a curved cylindrical bottom, shown below in Figure 2, is completely filled with water of mass density 1000 kg/m3. a. Determine the horizontal and vertical components of the hydrostatic force on the curved cylindrical area ABCD. (4 marks) b. Calculate the magnitude and direction of the resultant force on the curved surface ABCD. (4 marks) c. Name the point through which this resultant...
A quarter circle gate that weighs 312kg is used to keep a certain liquid inside of...
A quarter circle gate that weighs 312kg is used to keep a certain liquid inside of a tank, as shown in the image. Calculate the force in <N that the spring must generate to keep the gate in position. Consider that the gate is 2.96 meters deep into or out of the screen). Consider that the properties of water are: v=0.294x10-6m2/s and u=0.286m Pas. X SG = 1.3 В! 5m у x = y = 2R 3(4 – ) A...
A quarter circle gate that weighs 308kg is used to keep a certain liquid inside of...
A quarter circle gate that weighs 308kg is used to keep a
certain liquid inside of a tank, as shown in the image. Calculate
the force in kN that the spring must generate to keep the gate in
position.
Consider that the gate is 2.24 meters deep (into or out of the
screen). Consider that the properties of water are:
ν=0.294x10-6m2/s and μ=0.288mPa s
A quarter circle gate that weighs 308kg is used to keep a certain liquid inside of...
A quarter circle gate that weighs 314kg is used to keep a certain liquid inside of...
A quarter circle gate that weighs 314kg is used to keep a certain liquid inside of a tank, as shown in the image. Calculate the force in kN that the spring must generate to keep the gate in position Consider that the gate is 2.15 meters deep into or out of the screen). Consider that the properties of water are: v=0.294x10-6m²/s and p=0.285mPas. X SG = 1.3 B 1-w 5m у X = y = 2R 3(4 – 1) ΑΙ...
A quarter circle gate that weighs 316kg is used to keep a certain liquid inside of...
A quarter circle gate that weighs 316kg is used to keep a certain liquid inside of a tank, as shown in the image. Calculate the force in kN that the spring must generate to keep the gate in position. Consider that the gate is 2.72 meters deep into or out of the screen). Consider that the properties of water are: v=0.294x10-6m2/s and u=0.286mPa s. х SG = 1.3 B Bm 5m 2R у x = y = A 3(4 –...
Moving to another question will save this response Question 10 Calculate the vertical force component of the 40 kN for the beam loaded as shown in the figure below 10kN 0 kN 20kN 30kN A 2m 4 m 4m...
Moving to another question will save this response Question 10 Calculate the vertical force component of the 40 kN for the beam loaded as shown in the figure below 10kN 0 kN 20kN 30kN A 2m 4 m 4m -39 4 KN
Moving to another question will save this response Question 10 Calculate the vertical force component of the 40 kN for the beam loaded as shown in the figure below 10kN 0 kN 20kN 30kN A 2m 4 m...
Question 19 4 pts Find the fluid force on the vertical side of the tank, where the dimensions are given in feet. Assume that the tank is full of water. Note: The density of water is 62.4 lbs per cubic foot. -5 3 2340 lb 468 lb 62.4 lb 249.6 lb 1404 lb
Problem 4 (25 pts): The frame supports 75-kg cylinder. Determine the horizontal and vertical components of force at pins B and C. (Determine the force components at pins B and C) 20. 3m 2m 0.5m
4. Calculate the centripetal force a 2kg mass experiences as it spins at the constant tangential speed of 5m/s along a circular path of radius r-2m. oscillation) to the 5. What are the spring force and its direction at a distance of 0.35m (while in left of the equilibrium position if k=32 kg/s??
calculate vertical reaction force at point G for the truss
shown in the figure assume L=5m, F1=11 kn, F2= 28 kn.
TE L(m) с E F 4 m B F F. 4 m G 4 m
Please show full working so I can learn to do it myself. Thank
you!
A tank with a curved cylindrical bottom, shown below in Figure 2, is completely filled with water of mass density 1000 kg/m3. a. Determine the horizontal and vertical components of the hydrostatic force on the curved cylindrical area ABCD. (4 marks) b. Calculate the magnitude and direction of the resultant force on the curved surface ABCD. (4 marks) c. Name the point through which this resultant...
A quarter circle gate that weighs 312kg is used to keep a certain liquid inside of a tank, as shown in the image. Calculate the force in <N that the spring must generate to keep the gate in position. Consider that the gate is 2.96 meters deep into or out of the screen). Consider that the properties of water are: v=0.294x10-6m2/s and u=0.286m Pas. X SG = 1.3 В! 5m у x = y = 2R 3(4 – ) A...
A quarter circle gate that weighs 308kg is used to keep a
certain liquid inside of a tank, as shown in the image. Calculate
the force in kN that the spring must generate to keep the gate in
position.
Consider that the gate is 2.24 meters deep (into or out of the
screen). Consider that the properties of water are:
ν=0.294x10-6m2/s and μ=0.288mPa s
A quarter circle gate that weighs 308kg is used to keep a certain liquid inside of...
A quarter circle gate that weighs 314kg is used to keep a certain liquid inside of a tank, as shown in the image. Calculate the force in kN that the spring must generate to keep the gate in position Consider that the gate is 2.15 meters deep into or out of the screen). Consider that the properties of water are: v=0.294x10-6m²/s and p=0.285mPas. X SG = 1.3 B 1-w 5m у X = y = 2R 3(4 – 1) ΑΙ...
A quarter circle gate that weighs 316kg is used to keep a certain liquid inside of a tank, as shown in the image. Calculate the force in kN that the spring must generate to keep the gate in position. Consider that the gate is 2.72 meters deep into or out of the screen). Consider that the properties of water are: v=0.294x10-6m2/s and u=0.286mPa s. х SG = 1.3 B Bm 5m 2R у x = y = A 3(4 –...
Moving to another question will save this response Question 10 Calculate the vertical force component of the 40 kN for the beam loaded as shown in the figure below 10kN 0 kN 20kN 30kN A 2m 4 m 4m -39 4 KN
Moving to another question will save this response Question 10 Calculate the vertical force component of the 40 kN for the beam loaded as shown in the figure below 10kN 0 kN 20kN 30kN A 2m 4 m...
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