1 liter = 1000 cubic cm
The diameter = 132/pai cm
Base area = pai x (132/pai) 2
The volume is = Base x height = [(132) 2 /pai] x 25 /1000 litres
Then do the calculation.
A composite vessel has a steel hull and planked deck. The composite picture helped police catch the thief.
A venule is a small vein. A vein always carries blood to the heart and usually carries oxygen poor blood. Since the circulatory system is circular, all of the vessels connect at some point. That happens in capillary beds, which are where venules (small veins) and arterioles (small arteries) meet. Arteries carry blood away from the heart and are usually oxygen rich. Venules fuse to form veins that bring the blood back to the heart where it can get oxygenated and deliver it to body tissues where the whole cycle starts again.
There are infinitely many possible combinations - ranging from tall thin containers to short wide ones.
Step One. Calculate the surface area of the inside of the vessel. Assume that the thickness of the vessel is negligible.Diameter is 20. Circumference is pi * diameter.C = 3.14159 * 20 = 62.8318 cmHeight = 14cm.Surface area = C * 14 = 879.6452 cm2Step Two. Calculate the cost of tinplating the surface area879.6452 * Re1 / 100 = CostCost = 8.796452 RE
5.69343982 liters Vol = pi * r^2 * h Converting the feet to meters , we can get the volume as approx 5.7 liters
It is a chemical vessel with a spherical body and a cylindrical neck.
It's a cylindrical vessel used to heat substances over a Bunsen burner.
Simply because - the shape allows the contents to exert even pressure throughout the vessel.
Because this shape works for the body. Somewhere in the evolution time line the creature which had the first cylindrical blood vessel survived and that information has been stored in the DNA and has past it on to its offspring. The reason I believe it works is that it is the easiest shape to dilate or constrict.
Fill the 5l vessel. Pour 3l into the 3l vessel. Empty the 3l vessel on the ground. Pour the remainder (2l) into the 3l vessel. Fill the 5l again, and pour as much as you can (1l) into the 3l vessel. There are now 4 liters in the 5 liter vessel.
The water pressure depends only on the depth, not on the size or shape of the vessel. The pressure increases at about 1 atmosphere (or bar) every 10 meters.
Usually a cylindrical vessel with a rounded or flat bottom used to run chemical or biological tests in. Can be made of several usually transparent materials
Outer jaws are used. Inner jaws will be use to find the inner dia of the cylindrical vessel.
If using a graduated cylinder, take into consideration the meniscus, which presents itself as a concave depression on the surface of the liquid in a cylindrical vessel or a convex bulge if such a container is filled to the brim. The height of the meniscus should be divided in half. If you don't have a graduated cylinder, utilize the formula pi times radius squared times the height (don't forget to adjust for the meniscus) of the liquid in a cylinder.