In figure below, the force F is applied normal to the gate at point B to keep it closed. The gatehinged at point A, is making a 60-degree angle with the horizon. The length AB of therectangular gate is 2m and the width of the gate normal to the plane of paper is 5 m. Moreinformation is provided on the figure.Determine1- Magnitude and point of action of the resulting hydrostatic force. Determine distance ofthe center of pressure, P, from point B2- Minimum value of the force F to just keep the gate closedAssume no friction in the hinge. Acceleration of gravity is 9.81 m /s^2.Waterdensity 1000 kg/m3BASide View of the GateFA

Refer to the figure given below to understand the steps following step1:

Answered: In figure below, the force F is applied…

Elements Of Electromagnetics

7th Edition

ISBN:9780190698614

Author:Sadiku, Matthew N. O.

Publisher:Sadiku, Matthew N. O.

ChapterMA: Math Assessment

Section: Chapter Questions

Problem 1.1MA

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Question 2 In the schematic demonstrated in the figure, a spherical gate is used to regulate the height of water in a tank. The sphere radius is 50 cm and when the water height in the tank reaches 6 m, the gate opens by turning around hinge A. Determine the total hydrostatic force applied on the sphere and its angle of action at the moment that the gate is about to open. h=6 m R=50cm
The gate is b=5m wide, is hinged at point B, and rest against a y = 10050N/m³ 15m smooth wall at point A. Find 6m (a)The force on the gate exerted by 8m seawater pressure (b)The horizontal force P. exerted by the wall at point A .
I need handwritten and correct
Calculate the pressure difference (P2-P1) between tanks 1 and 2 for the system shown in the figure.x + y = Z1-Z2.q = 951 kg / m3qm = 850 kg / m3Z1-Z2 = 951 mmh = 45 cm
EMERGENCY!!!! The cover in the figure is hinged at the center O and has a fixed width w = 5 m. The equation of the surface is x = y2 / a (a = 3 m), the depth of the water to the right of the lid (D = 4 m). If the weight of the lid is neglected, it is necessary to keep the lid in balance. Find the size of the force (Fa) required, as shown. Take the density of the water as 999 kg / m3.
Figure AB Cover rests on a flat surface. Cover 180 kg weight and 1.2 m wide. At what height is the water depth the lid won't open? find it. (glycerin density is 1260 kg/m3 , That density 1000 kg/m3 )
QUESTION 1 Determine the resultant hydrostatic force on the 1 m square door shown in the figure below, and the force F required to open the door. P = 0.05 MN/m² Po Gas 2 m F -Door -hinge T Water Gas Mercury- Figure 1 500 mm
Please answer with a good explantion so I can understand the problem
A triangular wooden body (S=0.80) is placed in water in theposition indicated in the figure. If the width of the body is 7.0 m,determine if the same for this position is stable or not indicating themetacentric height (YM).
1. Calculate the horizontal and vertical hydrostatic forces on the curved surface ABC in the figure to the right. с

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