Volume = pi R^2 L
so
mass = rho L pi R^2
rho = density = 1000 kg/m^3 * SG
because density of water is 1000 kg/m^3
so
mass = 1000 SG L pi R^2
if mass and R are the same then
L * SG= maas /(1000 pi R^2) = constant
so
Ln * SGn = L1 * SG1
A set of density rods is designed to illustrate the concept of density. The idea is to create cylinders of equal diameters and masses, but varying lengths, to show which have the largest and smallest densities.
(a) Derive a formula that will predict the ratio of the length of one rod to the length of another rod. Assume the radius and mass of each cylinder is the same and express your answer in terms of the specific gravity of each rod. (Use the following as necessary: SG1, SG2.)
(b) If you want to design a set of five density rods (made of aluminum, iron, copper, brass, and lead), determine the ratios of the lengths of each rod to the length of the lead rod, the densest material in the group. The specific gravities of the elements are approximately SGalum = 2.7, SGiron = 7.8, SGcopper = 8.9, SGbrass = 8.5, SGlead = 11.3.
3 answers
Damon, thanks but is that for A or B and what is the answer, please star it or underline it or something that it shows the final answer for it.
Hey, I showed you how to do it. Mow use what I showed you.
2 answers