Depth = 90m
g= 9.8m/s^2
Water density =1000kg/m^3
A) What is the Hydrostatic force on a 3m x 3m metal sheet laid flat?
B) What is the Hydrostatic force on that same sheet placed vertically (bottom edge at 90m)?

Depth = 90m g= 9.8m/s^2 Water density =1000kg/m^3 A) What is the Hydrostatic force on a 3m x 3m metal sheet laid flat? B...
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...
Problem 3: A plane gate of uniform thickness holds back a depth of water as shown in the figure. The gate thickness is 2 m, the length L is equal to 3 m, and the angle 0 equals 30°. Determine a. The average pressure on the gate. b. The hydrostatic force F applied to the gate and its components, vertical and horizontal c. Determine the volume of the "missing water" above the gate. What do you fincd interesting about this...
a=4 b=3(m/s) 06. The drag force. F.experienced by a submarine that moves at a great depth from the surface of the water is a function of the density . viscosity, speed and the transversal section of the submarine 1. An expert suggests that the nondimensional relationship that allows the calculation of Fis: AVEA (a) is the number of dimensionless parameters in the expression correct? Why? (b)Are the parameters correct? If not, correct them. (c) A geometrically similar model to that...
Water at 10 degrees Celsius and a velocity of 2.5 m/s is flowing along a 4.5 m long flat plate at a uniform temperature of 40 degrees Celsius. If the plate is 1.5 m wide, determine: a) the distance from the leading edge of the plate where the flow becomes turbulent, b) the heat transfer rate between the plate and the flowing water, c) the fraction of the force exerted by the water on the first half of the plate...
Question 11 105 m/s. The sheet is nonconducting, flat, and very large. Part (b) of the figure gives the In part (a) of the figure an electron is shot directly away from a uniformly charged plastic sheet, at speed vs 2.10 x electron's vertical velocity component v versus time t until the return to the launch point. What is the sheet's surface charge density? 26.0 t(ps) (a) (b) Number Units The number of significant digits is set to 3; the...
1. A very smooth flat plate of length L-1 m and width b 3 m is immersed parallel to a stream of velocity 2 m/s. For both air and water as the working fluids [5 marks] Show that the flow is completely laminar over the entire plate. a. b. Determine the drag force on one side of the plate. Determine the thicknesses δ, δ*, and θ at the end of the plate (x L). [6 marks] C. For air use,...
a) The horizontal force(s) (direction and magnitude) acting on
the gate per unit width and draw the pressure distribution
diagram(s) [6 marks] b) The vertical force(s) acting on the gate
per unit width (Include direction and magnitude). [6 marks] c) If
the gate is 5 m long (into the page), calculate the magnitude,
direction and angle of the resultant hydrostatic force acting on
the gate. [7 marks] d) The net horizontal force acting on the dam
per unit width. Include...
4. What is the total force on the bottom of a 2.0-m-diameter by 1.5-m-deep round wading pool due to the weight of the ain and the weight of the water? (Note the pressure contribution from the atmosphere is 1.0 x 10 Nim2, the density of water s 1 000 kg/m3, and g -9.8 m/s2) 9 a. 5.1E+5 N b. 1.4E+6 N c. 2.1E+6 N d. 2.1E+5 N e. 3.6E+5 N We were unable to transcribe this image
QUESTION 2A (11 marks) [Allow 13 minutes] Water flows over a stationary, smooth, flat rectangular plate with dimensions 0.4 x 0.25m as shown in the figure below. The plate has its long axis parallel to the direction of flow 0.4 m U1 m/s 0.25 m Answer the questions below where the properties of the water are (p 1000 kg/m, v 106 m2/s): a) Determine the nature of the boundary layer over the plate if the approach velocity of the water,...
Home looking Files X Exam2(2).pdf + Exam2%20(2).pdf 4/4 3. An incompressible, viscous fluid with density, p, flows past a solid flat plate which has a depth, b, into the page. The flow initially has a uniform velocity U... before contacting the plate. After contact with the plate at a distance x downstream from the leading edge, the flow velocity profile is altered due to the no-slip condition. The velocity profile at location is approximated to have a linear shape, u...