AMATEUR TELESCOPE MAKING ADVANCED (BOOK TWO) A SeqfLel t0 AMATETTTRE LESCO?YI~AEK IXG (BOOK ONE) A~BERGT. INGALLESd'i tor Contributing Editor, Scientific American A eollection of contributionv to cclnateur preciaion opticv by numerouv authorities SCIEN'I'IFIC AMERTCAN, INC. 1952 .U7 rigltts ).~sPI<I.P~ Th? lti-lith oE Tr;iii~ltitioii: i1~, ri..-ri.\ ~ ( fln r al1 ld~~zti~11~(,1i1g1f~Iint~hg? ~ S c;~~~diii:~vian Eiglitli l'rilitiiig 1952 PRIXTED IX THE ITNiTED STATPS OF AYERICA RIXGSPOIIT PI<EóS Ih<'. KlNCrYPOItT, TENlhSSEE CONTENTS HAVJND TO DO WITH THE COSSTRITCTION OF OPTICAL INSTRUDIEA-TS PACE Backwoods Philosophy-Everest ....................................... 3 3Iirror Making 'l'echnic - Sub-diameter Tools ..................................... . . . . . . . . 49 Making and Using Metal 'Tools-Chrk ................................ 55 Metal Mirrurs aricl Flats .......................................... 62 Astigmatism-Warner ................................................ 70 Prisms, Flats, Mirrors-Ferson ........................................7 5 Sninll-scalr Prism Produetion A Quantitative Optical Test for Telescope Mirrors-King ..............1 04 Perforining tlie Ronclii Teat Qui~iiiiluti\ely The Hartmann Test-Caliler .....................................1.0 9 Flats-Selby ....................................................1.1.3. Notes on thc Opticnl Testing of Asplieric Surfaces-Selby ..............1 32 IIow to Make Rouge-Selby .......................................1 39 Small 1,e ns Wriril<les-Porter ........................................ 121 h1aking Eycl>.eco Lenses An Introduction to Srnall Lenses-Clarlr ................................24 7 31üiiil>- oii 11akiiig Byepieces Oculars at Smnll Cost-Patterson ......................................1 87 The Refractor-Met;~l Pnrts nnd Mounting-Triylor ......................1 92 The Refracting Selescope-Principies of Operation and Construction- Havilancl .............................................. . .212 1Iainly on tlie Objeetive Lens Target Scopes-Kirlcliam ..............................................2 62 For thc Rifleman Testing Convex Splierical Surfaces-King ................................2 69 Collimatioii and Adjustrrient ...................................... 272 How to M;il<e a Diagoiial for a xentoninn-Hindle .................. 282 Making Srtting Circlrs ............................................2.8 7 Tclescope 1)rives-1, ower ............................................3. 03 Drives for 1.a rger Telescopes ............ ... ...................... 319 Hand-Wound Spring Drivrs for Telescopes .............................. 321i She Sprin.gfielc1 Mouriting-Porter ....................................3 33 The Springfield Mounting-Pattern Making-Porter .................... 339 With Principies of Yolding and Casting .............. Molding and Castiiig Springfield Mountiiig Parts-Ferson .3.1.i Moldirig and Casting a Fork-Mason ..............................i3 6l Sidelights on Molding and Casting v vi CONTENTS PlOE Machining the Springfield 3lounting.Piirter ............................3 65 Motor Drives, Coiiiiterweighting. Pier-Cpringfirl(1 Moiiiitiiip-Porter ....3 71 'I'he Riiilding tif a 19-Inch lieflecting 'I'elescop<.-Yoiiiig ..................3 76 r1 7 he Schinidt Carnera-Introductory-l<usht>ll ............................3 9.3 Theory and Design of Aplanatic Heflectors Eiiiployirip ;i Correctirig 1.eiis- Wriglit ........................................................... 401 Ineluding tlie S<.IiriiidtC ;!iiirr;i Notes on the Construction of an F/1 Schrni<lt C.rinera-Lo\ver ............4 10 The Camera Obscura-Dall ....................... ......................4 17 Indoor Telescopic Visiun-Terrestriiil Crlesti;il Converting a Seth 'I'hornas Clock into a Sidere;tl Clock-l<uriy.tn ..........S 25 A Precision Clock-Soutlier ...........................................4.% 7 1l;tl;iii~:I Synchrotiom~( 'io<.l< Micrometers ..........................................................4.4 7 A Simple Chronograph-Hay .................. .0. - The Eval)oratiori Process for Cmiting Astronomical Mirrors- Strong ..... -467 Having to Do with Silvcring ...........................................4.7 7 The Amateur's Ohservatory-Scanlon .................................4.8 .4 h Bilateral Slit hlechanism-H;rriieh and I5rattain ...................... 503 Sliorts ...............................................................5.0 6 Building a Birefringent Polarizing Monochromator for Solar Pruminences- Paul ...............................................................5. 2 1 I'AllT 11 HAVING TO no WITH sonm OF THE MORE PRXCTICAL ASIJE<'TS OF OBSERVING Researches with Our Instriiments-Halb.ich ...........................5.6 0 Definite, Systernütized Uses for Teleacopes The Dewing of Optical Siirfaces-Steav?nsori ..........................5 76 Limitations of Vision with u. Tclescol>e-Dall... .........................5 79 Atmosphere, Te1escol)c arid Obierver-Douglass .........................5 65 Heflrctors versus Refractors-Pickering ................................6 06 U'oodin Tubes for Reflectors ..........................................6 16 Dealinp witli Spider Diflraction-Couder ...............................6.2 0 She Itichest-Field Telescope-Walkden .................................6.2 3 Index ...............................................................6.4.8 HAVING TO DO WITH THE CONSTHUCTTON OF OPTICAL INSTRUMENTS By A. TI7. EI'LREST Pittsfield, 1\Iüssacliu\etts A I'II~:UE o r OI,ASS He lahorrd late into tlie night, At rarly iiiorii' liis task rehulned, To f;~bhioii thus a <lih!i o£ glass Intu 2% sui~tleC UITT.C, not drep, But iiieasiired only by the slindes of light P'roin ;t uirnple yinholp me<lr in foil, 1ti.i.ealiirg to his prnctihe(1 eye Tnil~rrfegtions intiiiitesimitl: 1T11til at Inst his skill producrd A riirvr so truo tlie mind o€ mnn Could not discern the val-ei.ing o€ a breath. "Ju-t a pieee of dass," 'tws said, B~iti ri tliat simple rlisk Thr hrnrrnly hopt Of suiis aiid siars, ?ea, iinirersi3s. Rrvenlrd tlieir ~loryi n the sky For iiian to ponder-and tidore. -C. A. Olson Westwood. N. J. The first requirement in fiaurinp n mirror is a rlear conception of how it should :ippear on llie testing stand, sincc it is hy compnring wliot we see with ~v11:it we ciuglit to ser tlint wc cleterniine \vliat to do. Tliis :ippe:ir:ince, with tlie knife-edge in come intermediate positioii, 11:~s been snid to resemble that of n doiigtinut-and tlie an:ilogy is a good one, since, like arnateiir's mirrors, there are al1 kinds of douglinuts-roiigh ones, smootli ones, dougli- nuts witli lioles antl dougliniits mithout 'em. Well, whnt is thr shape of tlie true paraboloidal doi~glinut? Witli Porter at the otlirr end of the continent, ahoul :ill we can do in tlie way of showirig this threc-dimensional appr:irance in two-dimensional space, is to draw its cross-section only, nnd !e;~rei t to the reader to visualiee the surface of revo- lution this rrprcsriits. She calcu1;ition of ttiis cross-section is a simple niatter. In f;ict, tlie cross-section of thr paraboloid, a.: it appears witli the lrnife-edge in nny iiscful position, may he covererl in :i single eclii;ttion. Let's figure ttie tiiing out under a lieading somewhat in keeping with thc method c f calculation. For reacons wliich will brcome cle,tr latcr on, the logical referrnce sur- face for our calculatioris will be a spliere whose center of curvature is at 3 4 MIRROR MAKING the point of ohservation, Le., where the knife edge cuts tl~ec one of light. Further to siinplify niatters, tliis refererice iphere mciy he inadc tangent to the paraboloid at iti center, as in thc iipper par1 of Figure 1, mnking this point the origin of coordinates and therehy rliminating the constant of in- tegration. In this example we have chosen n sphere whose center of curva- ture C prime is just outside of C, tlie center of curvature of the paraboloid's center zone. Starting at the center, such ü sphere would lie outside the Al1 drawings by the author FIGTRE1 paraboloid as far as some zone X, bepond which it would lie within. Viewed froni its center of curvature, tliis reference sphere would appear flat, its apparent cross-section would be a straight line, and the apparent cross-section of the paraboloid would be a curve, somewhat as sliown in the lower part of the same figure. An expression for the deviation of the paraboloid frum this or any other reference sphere will involve the following two propositions, which will he stated with a degree of accuracy equivalcnt to that of r2/R without the tail end of the forrriula. This will permit the use of simple terms which will introduce no measurable error iñ the calculations for our telescope mirror; although, of coiirse, the error would be intolerable in similar calculations for a large searcliliglit reflector. M I R R O R MAKING 6 Proposition. 1: For the condition shown in Figure 2, the deviation of parab- oloid from sphere varies as the fourth power of its radius r, and inversely as the cube of its radius of curvature R. In mathemi~ticalt erms we woul<l x4 write, y = - k- R3 The minus sign is inserted to indicate that the curve bends away from the ohserver. E'or the slope at any poiiit, the first theorem in elementary caicu- lus (about al1 we remcmher) tells lis, Proposition 2: When observed from first one and then the other, of two points aloiig tlie axis iiear the center of curvature, the slope of any zone changes in proportion to the radius x of the zone, in proportion to tlie distance L) between the two points of observation, and in inverse proportion to R. For the slope in one position compared with that in the other we may * write, = KD-2 dx R wlience, y = KD- (4) 2R A useful example of this would be a spherical mirror examined first from its centcr of curvature, whcn it would appear flat and its apparent cross- section would be the straight line shown in Figure 3. If now the knife-edge be moved a short distance D toward the obberver, the surface will appear concave, y varying in proportion to $2 as shown. We may now investigate what would happen to the curve shown in Figure 2 if the knife-edge is moved toward the ohsrrver. The slope of each zone would change in accordance with the law given in the preceding paragrnph, which means that certain sets of y values determined by Prop. 2 would be added to those determined by Prop. 1. For example, Figure 4 shows the re- sult of adtling the zictual !/ va1ut.i of Figure 3 to thosr of Figure 2. As a use- ful prol>osition, liowrrir, tlie riirrc :i<lditioii of tlie riglit-li;in<i iiienii)crs of equations (1) and (A), givirig x2 y = KD- - kR234 2R (5) woiild mean notliing until wr rspress T< iii tcrrn.; of k. To do this me tn;iy consider tliat ?/ is to reticli its riliis iiii~xiiriiiiii ;rt tlic point \vlirrt* tlic rurve, surh us tlie onr sliown iri Figiire 1, iit Iiottom, or tli' oric hlioxvri iir Figiire .1., bec~iniesf lat at the crest. l'liis will be xvhen tlie slol>cs re~~reheritc.tbly tlie * I"rc,unr: 3 values of Propositions 1 and 2 cancr! each other, Le., where dx alrence, K = &k- x2 DR2 x2 For tliis point iri tlie curvr, D = R- Subslitutirig this valur of D in equation (6), -. and substituting this value of in cquntion (S),