Q1. As shown in Figure 1, a tensiometer cup is installed 25 cm below ground surface...
1. A gate, shown in Fig. Q1, is 1.5 m wide, is hinged at point A and rests against a wall at point B. The fluid is water and the free surface is open to the atmosphere. Calculate (G) the force on the gate due to pressure exerted by the water, and (ii) by taking moments about point A, the horizontal force exerted by the wall at point B. (10 marks) (15 marks) Pa I water 4.5 m 1.8 m...
(1 point) ん 1.2 m 30° The tank shown in the figure contains a fluid with a specific gravity of 1.7. The region above the fluid is filled with vapor. The pressure gauge located at the top of the tank indicates a reading of 8.75 psig. 1. Determine the gauge pressure at the bottom of the tank. 2. Determine the height of the liquid column in the vertical tube Poa gauge TTn
4) A large slope is constructed as shown in the figure below. A failure surface is considered passing through the crest and the toe of the slope. The soil properties are y= 18 kN/m2, c 0 kPa and =25°. The water table is well below the ground surface Using the theory for the stability of an infinite slope, estimate the factor of safety. [5 а. marks] b. Use Fellenius' method to determine the Factor of Safety against failure. [13 marks]...
Water is flowing in the pipe shown in the figure below, with the 7.50-cm diameter at point 1 tapering to 3.65 cm at point 2, located y 14.0 cm below point 1. The water pressure at point 1 is 3.20 x 104 Pa and decreases by 50% at point 2, Assume steady, ideal flow. What is the speed of the water at the following points? 2 (a) point 1 m/s (b) point 2 m/s
Open with Google Docs ▼ Question 3 Calculate the flow rate of water in a pipe of 30 cm diameter placed in an inclined position where a venturi meter is inserted, having a throat diameter of 15 cm. The difference of pressure between the main and throat is measured by a liquid of s.g. 0.6 in an inverted U-tube which gives a reading of 30 cm. The loss of head between the main and throat is 0.2 times the kinetic...
Water is flowing in the pipe shown in the figure below, with the 7.75-cm diameter at point 1 tapering to 3.75 cm at point 2, located y 13.5 cm below point 1. The water pressure at point 1 is 3.20 x 104 Pa and decreases by 50% at point 2. Assume steady, ideal flow. What is the speed of the water at the following points? (a) point 1 m/s (b) point 2 m/s Need Help? Read It
The hose shown below (point 1) has a radius of 1.25 cm, and the nozzle at the end (point 2) has a radius of 0.45 cm. Point 1 is on the ground and point 2 is 80 cm above the ground. If water is flowing out of the nozzle at 2 L/s, What is the flow rate in units of m3/s? What is the pressure within the hose? Please show all math steps and how you set up the formulas...
Two point-like charges are placed as shown in the figure, r1 =
18.0 cm and r2 = 52.0 cm. Find the magnitude of the electric field
at point (p) shown in the figure. Let q1 = −17.0 µC, q2 = +22.0
µC.
91 12 1
Two point-like charges are placed as shown in the figure, r 1 = 18.0 cm and r 2 = 50.0 cm. Find the magnitude of the electric field at point (p) shown in the figure. Let q 1 = −14.0 µC, q 2 = +30.0 µC. q1 is on far left. p is left center. q is far right. is what i got and is wrong 2.81e6 N/C
Two charges, Q1=2.90 μC, and Q2=5.30 μC are located at points (0,-2.00 cm ) and (0,+2.00 cm), as shown in the figure. What is the magnitude of the electric field at point P, located at (5.00 cm, 0), due to Q1 alone? The electric field at position P due to charge Q1 is not influenced by charge Q2. Therefore, ignore charge Q2 and apply Coulomb's Law. Remember to convert all units to the SI unit system. What is the x-component of the total...