Find the fluid force on the vertical side of the tank where the dimensions are given in feet8/26/2023 ![]() † † margin: y y x - 2 - 1 1 2 - 2 - 1 1 2 50 water line not to scale d ( y ) = 50 - y Figure 6.5.8: Measuring the fluid force on an underwater porthole in Example 6.5.4. ![]() The truth is that it is not, hence the survival tips mentioned at the beginning of this section. So this is the volume, the fluid force on the vertical outside of the tank. Keep three nights going to sell them three times three its nine times 3 27 divided by nine, which is three. And in 24 points its I have three Times three Its 9 -3. This is counter-intuitive as most assume that the door would be relatively easy to open. Find step-by-step Calculus solutions and your answer to the following textbook question: Find the fluid force on the vertical side of the tank, where the dimensions are given in feet. So I have the upper parts and this is equal to one. Most adults would find it very difficult to apply over 500 lb of force to a car door while seated inside, making the door effectively impossible to open. Find the fluid force on the vertical side of the tank, where the dimensions are given in feet. Solution: We can find atmospheric pressure by either interpolating in. Rectangle: 4 feet across the top and with a height of 3 feet. 3 ¯, - 2.25 ) ( 0, - 2.25 ) ( 0, 0 ) y y x Figure 6.5.7: Sketching a submerged car door in Example 6.5.3. Now sum forces normal and tangential to side AA. You can calculate the buoyant force with the following buoyancy formula: B. Using the weight-density of water of 62.4 lb/ft 3, we have the total force as The side length of the cross section located x units to the right of the. We adopt the convention that the top of the door is at the surface of the water, both of which are at y = 0. Its length is 10 / 3 ft and its height is 2.25 ft. ![]() (The weight-density of water is 62.4 pounds per cubic foot. SolutionThe car door, as a rectangle, is drawn in Figure 6.5.7. Rectangle: 4 feet across the top and with a height of 3 feet. Find the fluid force on the vertical side of the tank, where the dimensions are given in feet.
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