1- A cylinder has a diameter of 12 inches, is 8 inches long, and has a 4 in ram / rod extending from one side. This is connected to a pump rated at 1.5 GPM and 1,500 PSI.
What is the max load the cylinder can (push / extend)?
2- A cylinder has a diameter of 12 inches, is 8 inches long, and has a 4 in ram / rod extending from one side. This is connected to a pump rated at 1.5 GPM and 1,500 PSI.
What is the max load the cylinder can (pull / retract)?
3- A cylinder has a diameter of 12 inches, is 8 inches long, and has a 4 in ram / rod extending from one side. This is connected to a pump rated at 1.5 GPM and 1,500 PSI.
How long does it take, in minutes, to (push / extend) the cylinder?
1- A cylinder has a diameter of 12 inches, is 8 inches long, and has a...
Question 18 5p A cylinder has a diameter of 12 inches, is 8 inches long, and has a 4 in ram/rod extending from one side. This is connected to a pump rated at 1.5GPM and 1,500 PSI. What is the Horsepower rating for this system?
You have 5 in diameter hydraulic cylinder 30 inches long, with a 2 in rod. What is the maximum load in lbs that can be exerted on the power stroke with a 3000 psi pump
estion 2 Consider Figure, cylinder diameter is 3 in, rod diameter is 2 in. Frictional force between piston and cylinder is 500lb. The leakage is 1 gpm between the piston and cylinder. a) Find maximum value of extending stroke force F. b) Find piston velocity during the extending stroke. c) Find power delivered to cylinder of extending stroke. d) Find cylinder overall efficiency PA 1500 PSI Ps=0 psi т P2 2000 PSI 1800 PSI -5 PSI PUMP Q = 10...
question 1 and 2 please 1. A one-inch diameter steel rod is used as a pin-pin connected compression member. Calculate the critical load using Euler's formula. The proportional limit for the steel is 36,000 psi and the modulus of elasticity is 30,000,000 psi, (the radius of gyration for a circular section is d/4). Assume the length of the rod to be: A. 1.5 feet B. 4.5 feet Comment on the results of A and B. 2. A one-inch diameter steel...
31. The force exerted on the side of a fuel tank measuring 12 X 24 inches, when the tank 32. A rectangular fuel tank whose dimensions are 60 inches long, 20 inches wide, and 12 33. A brake master cylinder having a bore of 1.5 and a stroke of 6 inches displaces 34. A 4-cylinder aircraft engine has a bore of 3.78 inches and a stroke of 5.5 inches. Its is pressure tested to 8 psi, ispounds. inches deep contains...
Problemw3: The cylinder has an inner diameter of 4 in and a wall thickness of 0.1 in. If it is subjected to an internal pressure of p 80 lb ft. 90 psi, axial load of F 700 Ib and a torque of T 14. The max. principal stress is A) 1188 B) 1209 C) 1443 psi. F) 2504 E)2034 F)2504 D) 890 E) 1017 F1205 D) 1800 E) 2034 15. The min. principal stress isps A) 1188 B) 1209 C)...
1) In the figure below, assume the pipe diameter is 4-inches, (f = 0.035), Distance from BC is 18-feet, distance DE is 187-feet and ∆ z = 69-feet. The elevation of C is 14-feet above the lower water surface. If the pressure head @ C is to be no less than (–) 20 feet, what is the maximum flow rate that can be pumped? (Flow rate in GPM) 2) If the pump from the previous problem has 63% efficiency, what horsepower must be...
A pipe with an inner diameter of 8 inches (0.67 ft) carries water (ρ = 62.4 lbm/ft3, μ = 6.72 x 10-4 lbm/ft ⋅s) horizontally at a flow rate of 3.1 ft3/s. The pipe has been in service for a very long time, so the wall surface has become fairly rough (ε = 0.008 inches). The pipe is 1550 ft long. A) Calculate ΔP over the pipe length in psi B) Suppose the old pipe is now replaced with a...
1. The tank shown is 24 inches long, has 8- inch mean diameter, 0.1-inch wall thickness, and contains 400 psi internal pressure. As part of a processing operation the tank is rapidly spun, which produces a torque of 16000 lb-inch at the section of interest. (a) determine the state of stress in the y-z plane at the point indicated (at the front surface of the tank) and indicate on a square differential element; (b) represent the state of stress on...
A 1.5 m long rod has a diameter of 25 mm and made of steel the ends are fixed. calculate the ritical bucking load