Wiki User
∙ 8y agoaround 50 ton jack
Wiki User
∙ 8y ago25,000 pounds per square meter cubed divided by 60 square centimeters.
Length times Width
1 person per 12sqft
You can't say 'pressure per square inch. It's just 'pressure', which equals force per square inch. You divide the person's weight by the area of the foot in contact with the stairs to get the answer.
324
Hydraulic pressure required to lift a one ton load will depend on factors such as the size of the hydraulic cylinder, the mechanical advantage of the system, and frictional losses. As a rough estimate, for a simple hydraulic system with a one square inch piston and a one ton load (2000 pounds), you would need a pressure of 2000 psi to lift the load.
Pressure, such as tire pressure, hydraulic pressure, or air pressure, is typically measured in pounds per square inch (psi). This unit is commonly used in the automotive, aerospace, and industrial industries to quantify force per unit area.
PSI stands for Pounds per Square Inch, which is a unit of pressure typically used to measure air pressure in tires or hydraulic systems.
The force exerted on the piston in the hydraulic cylinder is calculated by multiplying the pressure by the area. In this case, the force would be 1,020 pounds (850 psi * 1.2 square inches = 1,020 pounds).
PSI typically stands for pounds per square inch, a unit of pressure measurement. It is commonly used to measure tire pressure, air pressure in pneumatic tools, and hydraulic systems.
25,000 pounds per square meter cubed divided by 60 square centimeters.
to understand this answer we have to assume the following as givin fact. fluids do not compress, that out of the way, the hydraulic piston you push is a smaller diameter than the piston that does the work. for example lets say that you are using a 1 square inch piston as the one you are pressing, and you are using a 100 square inch piston as the one doing work. these numbers are greatly exaggerated but will work for the example if you put 10 pounds of pressure on the 1 inch cylinder, you will have 10 psi of pressure. when this is routed to the 100 square inch cylinder you will still have 10 psi of pressure, but now it is acting on 100 square inches (10 pounds per square inch times 100 square inches) this would calculate to 1000 pounds. it would be the same as a 1001 inch lever with the fulcrum being 1 inch in from one end, only you would exert force on the larger lever to gain a mechanical advantage. hydraulics used in this way are known as liquid levers
6 bar pressure is relatively strong, equivalent to about 87 psi (pounds per square inch) or 600 kPa (kilopascals). This level of pressure is commonly found in various applications such as in car tires, air compressors, and some hydraulic systems.
Assume a small piston (one square inch area) applies a weight of 1 lbs. to a confined hydraulic fluid. That provides a pressure of 1 lbs. per square inch throughout the fluid. If another larger piston with an area of 10 square inches is in contact with the fluid, that piston will feel a force of 1 lbs/square inch x 10 square inches = 10 lbs. So we can apply 1 lbs. to the small piston and get 10 lbs.
3,000 pounds per square inch (psi) is equivalent to approximately 20.7 megapascals (MPa) in metric units. This pressure level is commonly used in hydraulic systems, such as in hydraulic jacks or hydraulic brakes, to generate force for various applications. It is essential to ensure that equipment is rated to handle pressures of this magnitude to prevent damage or failure.
The amount of pressure needed to punch through a sheet of plywood in one square inch depends on the thickness and type of plywood. In general, it would require a significant amount of force given the strength and density of plywood materials. Commercial hydraulic presses could exert enough pressure to achieve this, generally ranging from 3000-5000 pounds of force per square inch.
Hydraulics are typically measured in pounds per square inch, which is a measurement of pressure, or force exerted with respect to area. To calculate the force used, multiply the pressure measurement by the area measurement in inches. This will give you the force in pounds, then convert that to tons.