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The volume of a cylinder in any position will be the area of the circular end, or top, times the length, or height, along a side. The area of a circle is pi x radius2, where the radius ("r") is half the diameter ("d"), the distance across the circle. Calling the length or height of the cylinder "h", the volume of the cylinder is calculated as: V = (pi x r2)h = (3.1416 x (d/2)2)h Example: What is the volume of cylinder 12" long and 6" across the circular end? V = (pi x r2)h = (pi x (d/2)2)h = (3.1416 x (6/2)2)12 = (3.1416 x 32)12 = (3.1416 x 9)12 = 28.2744 x 12 = 339.3 cubic inches. Be sure to use the same units for r, d, and h. Pi is always 3.1416 (rounded).
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If you know level of fluid in horizontal cylinder how calculate fluid volume?
The volume of a cylinder (with a radius of r and a length L ) in the horizontal position filled to a depth (d) can be calculated with the following formula:L((r2)*(arcos((r-d)/r)) - (r-d)*sqrt(2rd-d2))Note: Calculator must be set to work in radians as opposed to degrees
How do you calculate fluid height in a horizontal cylinder if I know how many gal of liquid I am going to be putting in and how many gallons the cylinder will hold if filled full?
You need more information. It all depends on the size of the cylinder
What is the buoyant force of a 446 gram cylinder?
The buoyant force on an object is equal to the weight of the fluid displaced by the object. To calculate the buoyant force on the 446 gram cylinder, you need to know the density of the fluid it's submerged in and the volume of the cylinder. Using the formula Buoyant force = Density of fluid x Volume of object x gravitational acceleration, you can find the buoyant force acting on the cylinder.
How do you find displaced volume?
To find displaced volume, you can immerse the object in a fluid and measure the volume of fluid displaced. The volume of fluid displaced is equal to the volume of the object. Alternatively, you can use geometric formulas or 3D modeling software to calculate the volume of the object directly.
A certain fluid at 10 bar is contained in a cylinder behind a pistion the initial volume being oo5m3 calculate the work done by the fluid when it expands reversibaly according to a final V equals 0.1?
certain fluid at 10 bar is contained in cylinder behind a piston ,the initial volume being 0.05 m3 calculate the work done by the fluid when it expands reversibly i) according to a law P=(A/ V2 ) -(B/ V) ,to a final volume of 0.1 m3 and a pressure of 1bar,where A and B are constants.Answer(19200 j)
If A spherical ball is immersed in water contained in a vertical cylinder how do you Calculate the rise in the level of the water?
To calculate the rise in the water level when a spherical ball is immersed in water in a vertical cylinder, you can use the Archimedes' principle, which states that the buoyant force on an object immersed in a fluid is equal to the weight of the fluid displaced by the object. The volume of water displaced by the ball is equal to the volume of the ball. Calculate the volume of the ball using the formula for the volume of a sphere, then use this volume to determine the rise in water level.
When reading the volume of fluid in a graduated cylinder the eye should be .?
Level with the bottom of the fluid's meniscus
How does the Cylinder work?
A graduated cylinder is simply a beaker with parallel sides and equally spaced volume markings along the side. As the sides are parallel the volume increases proportionately to the level of fluid in the beaker. Equally spaced markings ("graduations") are marked on the side of the cylinder to indicate the volume of fluid to that point.If you are using a graduated cylinder you will notice that the level of fluid (eg water) will seem to cling to the sides of the glass near the edge in a small radius due to the surface tension of the fluid. This radius is called the miniscus. Always read the volume of fluid from the marking at the bottom of the miniscus.
How many fluid ounces is in a cylindrical container?
To calculate the number of fluid ounces in a cylindrical container, you need to know the height and radius of the cylinder. Once you have this information, you can use the formula for the volume of a cylinder (V = π * r^2 * h) and then convert the cubic volume to fluid ounces (1 cubic inch = 0.554 fluid ounces).
What do you call half of a cylinder?
Check out "horizontal cylindric segment" in Wolfram Alpha Online. That is the correct term for the solid you are looking for. Wolfram Alpha - "The solid cut from a horizontal cylinder of length L and radius R by a single plane oriented parallel to the cylinder's axis of symmetry (i.e., a portion of a horizontal cylindrical tank which is partially filled with fluid) is called a horizontal cylindrical segment."
How does the graduated cylinder work?
A graduated cylinder is a tall, narrow container used to measure the volume of liquids precisely. It works by reading the meniscus, the curve at the surface of the liquid, at eye level to get an accurate measurement. The volume is determined by the calibration marks on the side of the cylinder.
What Equation you would use to figure out the volume of liquid?
It depends on what information you have. If the liquid is stored in a container of which the dimensions are known, then you must calculate the volume of the container. You can simply search google for the formulae for the volume of a cube, cylinder, sphere etc. If the dimensions are not known, but the weight and density of the fluid is, then the volume can be calculated as: volume = weight (divided by) density
