2-80. The tank truck is filled to its top with water. Determine the magnitude of the...
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...
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...
Q1.) (3) point The tank is filled with water. 1- Determine the resultant force acting on the triangular plate A and the location of the center of pressure, measured from the top of the tank. 2- Determine the resultant force acting on the semicircular plate B and the location of the center of pressure, measured from the top of the tank. 3- Determine the resultant force acting on the trapezoidal plate C and the location of the center of pressure,...
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
The figure shows a cylindrical tank of 80 em in diameter which is fully filled with water. In order to increase the flow from the tank to the exit pipe on the left, an additional pressure is applied to the water surface by an air compressor to supply air to the upper air chamber of the tank. The external walls of the tank are exposed to the atmospheric conditions of the area. You are required to determine the hydrostatic conditions...
please solve and show all work please and thank you
2–2. Determine the magnitude of the resultant force and its direction measured counterclockwise from the positive x axis. 80 lb 60 lb Prob. 2-2
1. Atall cylindrical tank, held above ground on stilts, is partially filled with water. (See top figure). The tank has a diameter, D. At time equal to zero, a hole of diameter d is poked in the bottom of the tank, where d<< D. Let z-0 correspond to the bottom of the tank. The initial fluid height is za. Had Use Bernoulli equation to assess the velocity of the fluid as it leaves the bottom of the tank as a...
A large storage tank, open at the top and filled with water, develops a small hole in its side at a point 16.2 m below the water level. The rate of flow from the leak is found to be 3.00 x 10-3 m3/min. 1 (a) Determine the speed (in m/s) at which the water leaves the hole. m/s (b) Determine the diameter of the hole (in mm). mm () What If? If the hole is 10.0 m above the ground...
Assume now that you mistakenly filled the tank up to the blue line in the figure below. Using your ruler and protractor, draw the reflected and refracted rays for both incoming rays and read from the figure their angles (again, the red ray is 1 and the green one is 2) ang Note: the point of incidence is now where each ray crosses the blue line. The angles from the normal lines in those two points are those calculated in...
Maybe it’s easier to imagine the tank on its side so that the
depth gauge is inserted horizontally if you do this you must
express the equation as a function of y and integrate that
function.
Please use the ellipse formula, and compute the
volume of liquid by trapezoidal integral
and function you altered for the ellipse formula.
MUST contain following function:
Void trapezoidal_integral (double
depth, int n, double width, double height, double length, double
*integral_result)
Sample output:
Enter the...