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Question 2 a. The gage G in Figure below reads 16500 N/m2. Determine the elevations of...
3. Compute the SG of the liquid 'L' in the Figure below if the absolute pressure at the bottom of the container is 300 kPa. (Atmospheric pressure 101.33 kPa; Density of oil- 800 kg/m) 1.15 m 2.20 2.75 m Liquid L 0.38 m 4. The Figure below shows a baffled tank containing cells of liquid La, air and a liquid L. Determine the readings of the three pressure gages Gi, G and Gi (p for liquid Li-1000 kg/ m, and...
Question 2 (15 points) As shown in Fig. 2, if Ywater 9810 N/m2 and the gate is 2 m wide (into the paper), what is the moment M (N-m, clockwise is positive) at O to hold the gate closed? (Neglect friction and the weight of the gate.). Assume that Pam is constant in the air surrounding the system. м 45 Gate 2 m wide 1.2 m Water P atm Patm 0.6 m 0.3 m SG 6.0 Fig. 2
QUESTION 3 Figure below indicated that a plug with cone shape used to plugged a hole of 45 cm radius at one side of a tank that containing X fluid (SG-0.8). The cone is 1.5 m height and I.I m bottom diameter. Depth of cone center point to the surface liquid is 10m. a) Draw the distribution of pressure onto the plug b) Determine the force acts onto the plug Cone 10 m QUESTION 4 Figure below shows a water...
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Remaining Time: 1 hour, 19 minutes, 41 seconds. Question Completion Status: The familiar figure below shows a reservoir being aspirated by a venturi device. Given that p = 998 kg/m2 and that D1 is 2 cm and D2 is 6.3 cm, if the velocity at the throat, V4 is 9 m/s, determine the largest possible height, n, for which water can actually be drawn up from the reservoir in units of m. Do not include units in your answer....
45° Figure 1 Question 2 HA=0.2 g=0.3 The linkage in Figure 2 connects Block A and Block B which each have a weight of 60 N. The coefficient of static friction between the blocks A & B and the horizontal surface are ua=0.2 and us =0.3, respectively. Neglect the weight of the links. Using appropriate free body diagrams: 450 (a) Determine the largest force P that can be applied to Pin C without causing either block to slip Figure 2
8.314J. 1 atm- 1.01325X10% Pa; 1 m2-101:760 torr-1 atm; R-0.0821 1. atm. K' mol K.1 mol Note that the different parts of question 1 are independent. Answering a part of a question wrong or skipping it altogether should not affect your ability to answer other parts correctly. iven the relationship dG-V dP-S dT which indicates that G-(P, T). Also knowing that G is a state functions (meaning the reciprocity rule applies on it), derive the relation: os OP av Using...