Measure the outer diameter of the tube and its' length. Calculate each tube volume and multiply by number of tubes. For those who want to calculate the inside liquid capacity of the shell side, it is advise to include the baffle volume with the tube bundle volume.
To calculate the mass of a hollow tube, you need to know the outer diameter, inner diameter, and length of the tube. First, calculate the volume of the tube by subtracting the volume of the inner hole from the volume of the outer cylinder. Then, multiply the volume by the density of the material to determine the mass.
7.6 ml
The volume of a siphon tube would depend on its specific dimensions, such as length and diameter. To calculate the volume, you would use the formula for the volume of a cylinder, which is V = πr^2h, where r is the radius of the tube and h is the height (or length) of the tube.
The volume of water displaced is equal to the volume of the object submerged into the water
To calculate the volume of water displaced by an anchor on the ocean floor, you can use Archimedes' principle. The volume of water displaced will be equal to the volume of the anchor that is submerged underwater. By knowing the density of water and the weight of the anchor, you can calculate the volume of water displaced.
The equation to calculate water depth is: [ Water Depth = Volume of Water / Surface Area of Water ]
The volume of the sugar solution decreased in the thistle tube due to osmosis. Water moved from the solution into the potato cells, resulting in a decrease in volume of the solution in the tube.
rises because the water expands when heated, causing an increase in volume which leads to a higher level in the tube.
Volume of a cylinder (the test tube) = pi*radius2*height or length Volume = pi*15.52*204 = 49011*pi cubic mm
When sugar dissolves in water, it occupies space within the water molecules, leading to an increase in volume. So, if you dissolve a half test tube of sugar into a half test tube of water, the volume of the mixture will be greater than the sum of the individual volumes of sugar and water, resulting in a full test tube.
To calculate the water difference when the density changes, you would need to account for the change in volume due to the density change. Use the formula: Difference in water volume = Original water volume / Original water density - Original water volume / New water density. Multiply this difference in volume by the new water density to obtain the actual water difference.