349 x R = What/ R is 88
Divide 349/88=
R=3.965= 4.0
R=4.0
To find H you muliply 4.0 x by 2
H=8
R=4
R. H. Merson has written: 'A generalisation of the Nyquist stability criterion with particular reference to phasing error'
The volume is pi*r^2*h where r is the radius of the circular] cross section and h is the height (or length).
Pi x r squared x h pi = 3.142 r = radius of cylinder cross section h = cylinder height
pi*r^2*h/3 Where: pi is 3.14 etc. r is the radius of the cross section h is the height of the cone ^ is to the power of.
The H-R diagram compares a stars surface existing temperature to its absolute luminosity. By measuring the sun from the center of diagram, the star is used for reference.
Pi*r2*h r = radius of circular cross-section h = height of cylinder
R. H. Cory has written: 'Cory's index and cross-index to the Texas Constitution for legislative use' -- subject- s -: Constitutions, Indexes
R. H. Prause has written: 'Parametric study of track response' -- subject(s): Track, Railroads 'An evaluation of performance requirements for cross ties and fasteners' -- subject(s): Railroads, Track, Ties
From the square base to the circular top at height h, assuming that the base and top planes are parallel, and letting base side = s and top radius = r: Volume = ½h(s2 + pi r2)
It should be equivalent to a Harrington and Richardson model 120. Parts should be available from Numrich at the related link posted on the right side of this page. It absolutely is NOT a Harrington & Richardson product. The gun was manufactured by High Standard. The part is called either the carrier assembly or the cartridge lifter assembly. Numrich Gunparts and Proofhouse.com both cross-reference this Sears number to the H&R 120. Numrich has the carrier for for the H&R 120 for $18.20 and if you order it based on their cross-reference list, I'm sure you can get a refund if it is not the correct part..
H&R made thousands of revolvers.
volume of a : cube:a*a*a where a is its side cuboid:l*b*h where l is its length,b is its breadth,h is its height cone:1/3 pi r*r*h where r is its radius and h is its height cylinder:pi r*r*h where r is its radius and h is its height these are the ready made formulas formed by integration .