4.2.2 Find the magnitude, direction, and point of application of the hydrostatic thrust on the rectangular...
CIVIL ENGINEERING - FLUIDS QUESTION ABOUT HYDROSTATIC FORCE,
CENTROIDS, & MOMENT OF INERTIA - SEE PHOTO
PLEASE EXPLAIN & SHOW STEPS!!! Also please write clearly!
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IV. 25 points] An rectangular gate is hinged along its upper edge (at point "A"). The face of the gate has dimensions h by b, as shown in the figure. The fluid has a specific weight γ. A. 7 points] Determine the magnitude of the hydrostatic force acting on the gate. B....
Find the magnitude and direction of the resultant of A+B using Vector Addition by the Rectangular Component method. (Angles are in standard position.) A = 5.0 m/s at 45 deg B = 2.0 m/s at 180 deg
Three point charges are arranged as shown in the figure below. Find the magnitude and direction of the electric force on the particle q 4.96 nC at the origin. (Let 「12-0.325 m.) magnitude direction ° counterclockwise from the +x axis 6.00 nC 9 12 0.100 m -3.00 nC
5000 kg A rectangular gate 5 m by 2 m is hinged at its based and inclined at 60° to the horizontal as shown in below figure. To keep the gate in a stable position, a counter weight of 5000 kgf is attached at the upper end of the gate as shown in the figure. (Note = Neglect the weight of the gate) Hence 1 kgf = 9.81 N a) Draw the free body diagram for the gate b) Draw...
Three point charges are arranged as shown in the figure below. Find the magnitude and direction of the electric force on the particle q = 5.04 nC at the origin. (Let r12 = 0.275 m.)
Question 23 (1 point) Find the magnitude and direction (in degrees) of the vector. (Assume 0° < 0 < 360°. Round the direction to two decimal places. <-5, 2> O a) magnitude = 3 0 = 180° O b) magnitude = 3 0 = 158. 20° O c) magnitude =V29 0 = 180° O d) magnitude =V29 0 = 158. 20°
Determine the magnitude, direction, and point of application of
the the resultant force.
z 20 kip 10kip A 112 kip 6 kip B х D 5 Y I ft 2 ft 4 ft
2. Find (a) the potential, (b) the electric field intensity (in magnitude and direction) at the point P shown in the figure due to charges q1 and q2, each of 1 μ C. 1m 2
Part (B) How to find the direction ?!
26. A rectangular parallelepiped has dimensions a 2 m, b 3 m, and c 4 m, as in the figure below. a) Write the vector expression for the face diagonal Ri and calculate its magnitude. b) Write a vector expression for the body diagonal R2 and calculate its magnitude and direction.
Calculate the torque (magnitude and direction) about point O due
to the force F⃗ in each of the cases sketched in the
figure (Figure 1). In each case, the force F⃗ and the
rod both lie in the plane of the page, the rod has length 4.00 m,
and the force has magnitude 16.0 N .
We were unable to transcribe this imageConstants Part C Calculate the torque (magnitude and direction) about point O due to the force F in each of...