Can you calculate the ID of a pipe when you have the OD to be 10.75" and the wall thickness to be 0.5"
Depends on what you know about it. If you have the outer diameter and you know the wall thickness, then ID = OD-2 x wall thickness
I assume your dimensions are outside diameter 20mm, 3mm wall, 3m long. If so, then the volume is π*((.01)^2-(.01-.003)^2)*3=.0002853 cubic meters. or 285.3 cubic centimeters. In order to know the mass, however, you have to also know the density. Is it a copper pipe? If so, its mass is 8.92*285.3= 2.545 kilograms Is it PVC? If so, its mass is 1.38*285.3 = .394 kilograms In general, mass is volume times density.
To convert the volume of a pipe in meters to Imperial gallons, you would need to know the cross-sectional area of the pipe as well as its length. Given the inside diameter (ID) of 102 mm, the radius would be 51 mm. Using the formula for the area of a circle (A = π * r^2) and the conversion factor of 1 cubic meter = 219.9692 Imperial gallons, you can calculate the volume and then convert it to Imperial gallons.
The volume of water in a pipe depends on its length as well as its diameter. To calculate the volume of water in a 3-inch pipe, you would need to know the length of the pipe as well. Once you have that information, you could use the formula for the volume of a cylinder (πr^2h, where r is the radius of the pipe and h is the length of the pipe) to find the volume in cubic inches, which can then be converted to gallons.
To calculate the force required to pull the 5000kg pipe along the 10 sets of idle pipe conveyor systems, you need to consider the frictional force acting against the movement of the pipe. This frictional force will depend on the coefficient of friction between the pipe and the conveyor systems. You can use the formula F_friction = coefficient of friction * Normal force to calculate the force required. The force needed to overcome this frictional force should be less than the total normal force acting on the pipe.
You did not give quite enough information, but I can get you part of the way there. Water can be assumed uncompressible for your application. The temperature of the water will change the actual volume of water present. I will also assume that 1.25 is the inside diameter (or ID) of your pipe. I have to do this, because it depends on the type of pipe, tubing or hose that you are using as to it's real inside diameter. So the cross sectional area of your pipe is ( pi * r* r, or .625 *.625 * 3.1415 ) = 1.2271 square inches. Each foot of pipe will then hold 14.725 cubic inches of water, or 0.064 gallons of water per foot. Hope that helps.
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I assume your dimensions are outside diameter 20mm, 3mm wall, 3m long. If so, then the volume is π*((.01)^2-(.01-.003)^2)*3=.0002853 cubic meters. or 285.3 cubic centimeters. In order to know the mass, however, you have to also know the density. Is it a copper pipe? If so, its mass is 8.92*285.3= 2.545 kilograms Is it PVC? If so, its mass is 1.38*285.3 = .394 kilograms In general, mass is volume times density.
assuming it's hollow. 10.68*ID*(OD-ID)
The ID is the inside diameter, you can use a tape measure and measure the open end of the pipe from inside edge to opposite inside edge
To calculate pressure in a pipe, you can use the formula: Pressure Force / Area. This means that pressure is equal to the force applied divided by the cross-sectional area of the pipe. By knowing the force and the area, you can calculate the pressure within the pipe.
3 Inches.
1/8 pipe schedule
no
By measuring the schedule diameter. That's the distance straight across the inside of the pipe from one side to the other, as opposed to the outside of the pipe to the other.
Go to: http://www.techcalcs.com/calculators/pipeprop.php and use the calculator Otherwise calculate the volume displaced by the pipe and multiply by the density of the displaced water. This gives the bouyancy of the pipe
Need to know how long the pipe is first.
id means inside diameter, od means outside diameter, copper pipe and tubing is measured by the od, therefore the od the pipe or tubing will be the same as the id of the fitting