Q1.) (3) point The tank is filled with water. 1- Determine the resultant force acting on...
The tank is filled with water. Determine the resultant force acting on the trapezoidal plate C and the location of the center of pressure, measured from the top of the tank. 15
2-80. The tank truck is filled to its top with water. Determine the magnitude of the resultant force on the elliptical back plate of the tank, and the location of the center of pressure measured from the top of the tank. Solve the problem using the formula method. 2-81. Solve Prob. 2-80 using the integration method. y2 (0.75 m) + x = 1 0.75 m X 1 m Probs. 2-80/81
2-80. The tank truck is filled to its top with...
120 CHAPTER 2 FLUID STATICS 2-86. The tank is filled to its top with lubricating oil. Determine the resultant force acting on the semicircular plate ABC, and its location on the plate measured from the base AC of the tank. Use the formula method. Take yo 54.9 lb/ft 2-87. Solve Prob. 2-86 using the integration method. 18 ft 6 ft 60 Probs. 2-86/87
120 CHAPTER 2 FLUID STATICS 2-86. The tank is filled to its top with lubricating oil. Determine...
2.81/ F= 17.3 KN and yr= 0.938m need to see how to work it
out
36. 2-80. The tank truck is filled to its top with water. Determine the magnitude of the resultant force on the elliptical back plate of the tank, and the location of the center of pressure measured from the top of the tank. Solve the problem using the formula method. 37. 2-81. Solve Prob. 2-80 using the integration method. (0.75 m) 9.75 m Im Probs. 2-80/81...
Determine the total force in KN acting on the bottom of the
tank
0 X G 1Na 1 kn -Google Search Moran, Shapiro, Boettner, Bailey, Fundamentals of Engineering Thermodynamics, 9e Problem 1.036 51 The figure below shows a tank used pressure is 1 bar, the acceleration of gravity is s.8 m/s2, and the density of the water is 987.1 ka/m2 to collect rainwater having a diameter of 4 m. As shown in the figure, the depth of the tank varies...
#1. (a) Determine the magnitude of the resultant force acting at A (as shown in Fig. 1). (b) Determine the magnitude of the projection of the resultant force along the line AO. (6 + 4 = 10 Points) 0.75 m FAB 300 N Fic=450 N 3 m O 2 m / 40°* 2 m B -1 m.
Problem 2 Determine the resultant force and its location on the dam face (center of pressure) that are equivalent to the water pressure acting on %-circle surface AB. 10 ft width 6 ft
Problem 2 Determine the resultant force and its location on the dam face (center of pressure) that are equivalent to the water pressure acting on %-circle surface AB. 10 ft width 6 ft
Please show the orientation of the resultant force on the
inclined side.
9-115. The storage tank contains oil having a specific weight of γ0-56 lb/ft. If the tank is 6 ft wide, calculate the resultant force acting on the inclined side BC of the tank, caused by the oil, and specify its location along BC measured from B. Also compute the total resultant force acting on the bottom of the tank. i0 ft 2 ft s ft 4 Tt
Determine the magnitude of the resultant force acting on the plate and its direction, measured counterclockwise from the positive x-axis.F1 = 900N, F3 = 650N, F2 = 750N
Please answer question 2 and 2.1
Question 2 The shown tank contains (specific gravity = 1.10). orange drink Orange drink (sg = 1.10) 3.0 m 4.6 m 2.4-m diameter Circular view port 2.1. If the tank vent is open to atmosphere, determine (i) the resultant force acting on the round view port and (ii) the location of the center of pressure, measured from the free water level in the tank. (10)