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222 S c h r if ttu m 152. W . H u p p e r t , N e u a rtig e Is o lie rsto ffe , E T Z 55 (1934) 608. 153. H o c h fre q u e n z -Iso liersto ffe, E le k tro -I s o lie r-I n d u s tr ie , A rc h . te c h n . M essen Z 949— 1. 154. E . P u g e r - V a n o n i , M essu n g en a n H a r tp a p ie r k o n d e n s a to r e n , A rc h . te c h n . M essen Z 132— 3. 155. K . H e s s e , P re ß m a s s e n u n d g e s c h ic h te te P re ß s to ff e a ls n e u z e itlic h e B a u m a te r ia h e n d e r F e rn m e ld e te c h n ik , T eleg r.- u . F e m s p r .T e c h n . 19 (1930) 180. 156. A . W a l t h e r und L. I n g e , D u rc h s c h la g v o n ö ld u r c h tr ä n k te r P a p i e r is o la tio n , A rc h . E le k tr o te c h n . 21 (1928) 209. 157. E . W a l d s c h m i d t , D ie d ie le k tris c h e V e rfo lg u n g d e s T ro e k n u n g s- u n d Im p rä g n ie ru n g s p ro z e s s e s b e i P a p ie r , E T Z 56 (1935) 83. 158. G. N a u k , B e z ie h u n g e n zw isc h e n d e r T e m p e r a tu r a b h ä n g ig k e it d e r V e rlu s te u n d d e r D u rc h s c h la g s fe s tig k e it b e i P a p ie r k o n d e n s a to re n , E T Z 56 (1935) 539. 159. F . M ü l l e r , D ie P a p ie r f a b r ik a tio n u n d d e re n M a sc h in e n , B ib e ra c h 1926/30. 160. H e r z b e r g , K o r n , S c h u l z e , P a p ie r p rü fu n g , B e rlin J . S p rin g e r 1932. 161. H . S t ä g e r , E le k tro te c h n is c h e Is o lie rm a te ria lie n , S t u t t g a r t 1931. 162. M. M i c h a i l o v , Ü b e r d ie T r ä n k u n g v o n Is o lie rs to ffe n , E T Z 51 (1930) 1158. 163. W . F e h r und W . H u b m a n n , L e itfä h ig k e its - u n d V e rlu s tw in k e l- m e s su n g e n a n P a p ie r k o n d e n s a to re n b e i z u s ä tz lic h e r B e la s tu n g m i t H o c h fre q u e n z s trö m e n , E T Z 54 (1933) 819. 164. G. N a u k , Ü b e r d e n p h y s ik a lis c h e n A u fb a u v o n K o n d e n s a to r e n , E T Z 56 (1935) 371. 165. A . A . N e w , M it E s te r b e h a n d e lte F a s e r s to f fe als Is o lie r m a te ria l, E le k t . N a c h r.-W e s. 13 (1934/35) 226, 372; 14 (1935/36) 214. 166. R . G u t h m a n n , D ie E ig e n s c h a fte n d ü n n e r ö lg e tr ä n k te r P a p ie r e , E T Z 55 (1934) 364. 167. G . P f e s t o r f , F a s e rs to ffe , g e sc h ic k te Is o lie rsto ffe , B e g riff, E ig e n s c h a f te n , P rü f lin g , A rc h . te c h n . M essen Z 943— 1. 168. E . B r a k e u n d H . S c h ü t z e , Ü b e r d ie le k tr is c h e V e rlu s te v o n H o lz . E le k t r . N a c h r.-T e c h n . 12 (1935) 120. K a p i t e l 9 169. M . B r e n z i n g e r , I n n e r e V o rg ä n g e in V e n til-K o n d e n s a to r-S c h a l- tu n g e n , A rc h . E le k tr o te c h n . 26 (1932) 99. 170. W . J . G e I b a , E le k tro ly tk o n d e n s a to re n , A lu m in iu m 18 (1936) 145. 171. G ü n t h e r s c h u l z e u n d B e t z , E le k tro ly tk o n d e n s a to re n , B ln . 1937. 172. W . O h u r g e r , D e r n e u z e itlic h e E le k tr o ly tk o n d e n s a to r , E le k tr o te c h n . u . M a s c h .-B a u 56 (1938) 179 . . . 183. 173. O. J a u c h , R . B a u d e r , M . B e n t e l n , Ü b e r d a s D ie le k trik u m d e r E le k tr o ly tk o n d e n s a to r e n , Z . te c h n . P h y s . 15 (1934) 136. 174. O. B ü c k i n g , Ü b e r E le k tr o ly tk o n d e n s a to r e n u n d ih r e H e rs te llu n g , E T Z 58 (1937) 91. 175. G . N a u k , E le k tr o ly tk o n d e n s a to r e n u n d ih r V e r h a lte n im B e trie b , Z. F e m m e ld e te c h n . 17 (1936) 129. S c h rifttu m 223 III. Teil K a p i t e l 1 176. L . L i n d e r , J . S c h n i e d e r m a n n , D a s V e rh a lte n v o n P a p ie rw ic k e l k o n d e n s a to re n b e i h ö h e re n F re q u e n z e n , Z. F e rn m e ld e te c h n . IS (1937) 73. 177. H . G ö n n i n g e n , D e r P a p ie r k o n d e n s a to r, b e so n d e rs f ü r S ta r k s tr o m , E T Z 55 (1934) 1021. 178. R . E . W . M a d d i s o n u n d S. C h a p m a n n , F e m s p re c h k o n d e n s a to - r e n E le k tr . N a c h r.-W e s. 10 (1931/32) 40. K a p i t e l 2 179. L . L i n d e r , K o n d e n s a to r e n f ü r d ie R u n d fu n k -E m p f a n g s te c h n ik m it b e s o n d e re r B e rü c k s ic h tig u n g d e r E le k tr o ly tk o n d e n s a to re n , (1935). 180. P r ü f u n g v o n E le k tro ly tk o n d e n s a to re n , S iem ens R u n d fu n k -N a c h r ic h te n 11 (1936) 13. 181. G . X a u k , E le k tro ly tk o n d e n s a to re n u n d ih r V e rh a lte n im B e trie b , Z . F e m m e ld e te c h n . 17 (1936) 129. 182. D ie S p a n n u n g s b e a n s p ru c h u n g d e r E le k tro ly tk o n d e n s a to re n im R u n d fu n k e m p fä n g e r, R a d io h ä n d le r 13 (1936) 122. 183. Z e t z m a n n , E le k tro ly tk o n d e n s a to re n , R P Z te c h n . B e ric h t 601 (1931). 184. B a u d e r - J a n s s e n , D ie M essung d e r K a p a z it ä t h a n d e ls ü b lic h e r E le k tro ly tk o n d e n s a to re n u n d U n te rs u c h u n g ih r e r A b h ä n g ig k e it u n d V e rä n d e rlic h k e it, E le k tro te c h n . u . M a sc h .-B a u 50 (1932) 581. 185. H . X o t t e b r o c k , E in ig e s ü b e r W id e rs tä n d e , K o n d e n s a to r e n u n d S p u len , V eröff. G eb. N a c h r. T e c h n . 7 (1937) 481. 186. W . H o e s c h , W irk u n g sw eise, B a u u n d V e rw e n d u n g v o n E le k t r o ly t k o n d e n s a to re n , E T Z 52 (1931) 928, 946. 187. O. B ü c k i n g . Ü b e r E le k tro ly tk o n d e n s a to re n u n d ih re H e rste llu n g , E T Z 58 (1937) 91. 188. W . G. v o n G e e l , A . C l a a s s e n , E le k tro ly tk o n d e n s a to re n , P h ilip s te c h n . R d s c h . 2 (1937) 65. K a p i t e l 4 189. W . G o h l k e , T e m p e ra tu ra b h ä n g ig k e it v o n D re h k o n d e n s a to re n m it L u ftd ie le k trik u m , E le k tr . N a c h r.-T e c h n . 14 (1937) 258. 190. G. Z i c k n e r , Ü b e r K o n d e n s a to r e n u n d ih re E ic h u n g , L p z . 1928. 191. W . K u n z e u n d S. L o e w e , D re h k o n d e n s a to r, J b . d r a h tl. T elegr. 27 (1926) 119. 192. G. N ü ß l e i n , B e re c h n u n g u n d B a u v o n T o n k o n d e n sa to re n f ü r S c h w e b u n g ssu m m e r. F u n k t. M o n .-H e fte (1939) 4. 193. G. Z i c k n e r , N o rm a l-L u ftk o n d e n s a to re n , A rc h . te c h n . M essen Z 135— 1. 194. L . R o h d e u n d W . S ü ß , A u fb a u eines P rä z isio n s k o n d e n sa to rs, F e in m e c h a n ik u n d P rä s iz io n 44 (1936) 129. 195. G. Z i c k n e r , E in D iffe re n tia lk o n d e n s a to r f ü r F ein stellzw eck e. J b . d r a t l . T el. 25 (1925) 26. 2 2 4 S c h r if ttu m 196. K e ra m is c h e H o c h le is tu n g s k o n d e n s a to re n , R e f. H e lio s 43 (1937) 780. 197. A . K u n t k e , E in G e n e ra to r z u r E rz e u g u n g s e h r h o h e r G l e i c h s p a n n u n g e n , P h ilip s te c h n . R d s c h . 2 (1937) 162. K a p i t e l 7 198. H y d ra -S tö rb e fre iu n g s k o n d e n s a to re n , R e f. E T Z 51 (1930) 745. 199. A . D e n n h a r d t , Z u r F ra g e d e r B e s e itig u n g v o n R u n d f u n k s tö r u n g e n d u rc h K o n d e n s a to r e n , E T Z 52 (1931) 347. 200. E . D o z i e r , R u n d f u n k s tö r s c h u tz f ü r G le ic h s tro m b a h n e n , A E G -M it- te ilg . (1934) 230. 201. W . P i s t o r , E in h e its g e r ä te f ü r R u n d f u n k e n ts tö r u n g , A E G .-M itte ilg . (1934) 258. 202. L e its ä tz e f ü r M a ß n a h m e n a n L e itu n g s a n la g e n z u r V e rm in d e ru n g v o n R u n d fu n k s tö ru n g e n , E T Z 55 (1934) 1036. 203. W . P i s t o r , E in h e its g e r ä te f ü r R u n d f u n k e n ts tö r u n g , R e f. E T Z 56 (1935) 384. 204. H . K r ä t z , V e re in h e itlic h u n g d e r E n ts t ö r u n g s m it te l , A E G -M itte ilg . (1935) 260. 205. H . R e p p i s c h , R u n d f u n k s tö r u n g e n u n d E n ts tö r u n g s te c h n ik , S c h w a c h s tr o m 11 (1935) 117, 137, 170. 206. H . R e p p i s c h , D ie R u n d f u n k e n ts tö r u n g s te c h n ik , T e le g r .-P ra x . 19 (1935) 299. 207. H . R e p p i s c h , N e u e L e its ä tz e f ü r d ie E n ts t ö r u n g v o n M a s c h in e n u n d G e rä te n m it K o n d e n s a to r e n , S c h w a c h s tro m 11 (1935) 179. 208. J . M e z g e r u n d O. S c h n e i d e r , E n ts tö r u n g s m a ß n a h m e n f ü r d e n R u n d fu n k e m p f a n g in K r a f tf a h r z e u g e n , S iem en s-Z . 16 (1936) 241. 209. A . D e n n h a r d t , Ü b e r M a ß n a h m e n z u r M in d e ru n g d e r h o c h fr e q u e n te n S tö r fä h ig k e it v o n I s o la to r e n , V D E - F a c h b e r ic h te 8 (1936) 182. 210. F . S e e l e m a n n , R u n d f u n k s tö r u n g e n d u r c h d e n F e r n s p r e c h b e tr ie b u n d d ie M itte l z u ih r e r B e s e itig u n g , S c h w a c h s tro m 12 (1936) 17, 37. 211. H . K r ä t z , R u n d f u n k e n ts tö r u n g im H a u s h a lt , A E G -M itte ilg . (1937) 270. 212. H . K r ä t z , R u n d f u n k e n ts tö r u n g s m itte l, A E G -M itte ilg . (1937) 134. 213. H . J a c o b i , O. S c h n e i d e r , F . S c h u m a n n , E n ts tö r u n g s k o n d e n s a to r e n f ü r h o h e te c h n is c h e A n fo rd e ru n g e n , S ie m e n s-Z tsc h r. 18 (1938) 7. 214. L . B l o k , F u n k s tö r u n g e n , P h ilip s te c h n . R d s c h . 3 (1938) 251. 215. F . E p p e n u n d H . S e i b e r t h , R u n d f u n k e n ts tö r u n g s m e s s u n g e n a n S tr a ß e n b a h n e n , E T Z 59 (1938) 629. 216. E in g e h e n d e U n te rs u c h u n g n ie d e r f r e q u e n te r R u n d f u n k s tö r u n g e n b e i N e tz sp e isu n g d u rc h se c h s p h a sig e n , n ic h t g itte r g e s te u e r te n Q u e c k s ilb e r- ® d a m p fg le ic h ric h te r, R e f. E T Z 59 (1938) 1182. 217. L y o n , F u n k e m p f a n g s s tö ru n g e n u n d d ie E n ts t ö r u n g u n s e r e r K r a f t fa h rz e u g e , D ts c h . N a c h r ic h te n tr u p p e n 14 (1938) 180. K a p i t e l 6 S achverzeichnis A lu m in i u m s ilik a t 104ff. A m b e r 127 A m in o p la s t 130, 137 ff. A n a ta s 114 A n tio x y d a n tie n 99 Ä q u ip o te n tia lflä c h e 3 Ä q u ip o te n tia llin ie n 3 A rd o s ta n 105, 118 A sc h e g e h a lt 143 A s p h a lt 101 A s tra lo n 136 A u s d e h n u n g sk o e ffiz ie n t, th e rm i- m isc h e r 106, 114, 118, 119, 127 A u sg le ic h sla d u n g 81 f f . A u sg le ic h sstro m 81 ff. A u s sc h a ltv o rg a n g 83 ff. B a k e lit 137, 148 B e rn s te in 101 B e rs td ru c k 141 B e ry lliu m o x y d 118 B en zy lzellu lo se 132 B ifilare K o n d e n s a to r e n 161 B io tit 127 B lin d le istu n g 48 B lin d k o m p o n e n te v o n S p a n n u n g e n u n d S trö m e n 50 B lin d w id e rs ta n d v o n K a p a z itä te n 44ff. B ö n in g sch e T h e o rie 49, 93 B ro o k it 114 C alan 105 C a lit 105 ff. C a m a u b a w a c h s 101 C ellon 132 C eresin 101 C h lo r n a p h th a lin 101 C o n d e n sa 105, 115, 117 C o u lo m b 1 S t r a i m e r , K o n d en sa to r D ä m p fu n g s m e ss u n g 32 D e b y e sc h e T h e o rie 49, 93 D e c e lith 136 D ia k o n d 105, 119 D ie le k trisc h e V e rlu s te 49, 93 D ie le k triz itä ts k o n s ta n te , a b s o lu te 4 — D ru c k a b h ä n g ig k e it 95 — re la tiv e 4 — T e m p e r a tu r a b h ä n g ig k e it 115, 125, 126 D iffe re n tia lk o n d e n s a to r 88, 185 D re h k o n d e n s a to re n 2 0 ff. — A n fa n g s k a p a z itä t 22 — E n d k a p a z it ä t 22 — fre q u e n z g e ra d e 26 — J u s tie r u n g v o n M eh rfach - 34, 43, 184 ■ — k a p a z itä ts g e ra d e 23 — K u rz w e lle n - 186 — M eh rfach - 3 3 ff., 182 ■ — m it F e s td ie le k trik u m 185 — m it lo g a rith m isc h e m P l a t t e n s c h n itt 28ff. — N o rm a lm e ß - 186 — te c h n isc h e A u s fü h ru n g 179ff. — w elle n lä n g e n g e ra d e 24 D re ip la tte n k o n d e n s a to r 74 D re ip u n k ta b g le ic h u n g 42 D u rc h sc h la g sfe stig k e it 92ff. D u rc h s c h la g ssp a n n u n g 92ff. —- v o n P a p ie r k o n d e n s a to re n 147ff. E ffe k tiv w e rte v o n S trö m e n u n d S p a n n u n g e n 43 ff. E in s c h a ltv o r g a n g 82ff. E le k tro n e n , freie 89 E le k tr o ly te 150 E le k tro ly tk o n d e n s a to re n , B e trie b s s p a n n u n g 156 — B e trie b s te m p e ra tu r 169 15 226 S a c h v e rz e ic h n is E le k tr o ly tk o n d e n s a to r e n , E r s a t z sc h e m a 156 — F o rm ie ru n g s s p a n n u n g 151 ff. — F u n k e n s p a n n u n g 152, 155 — h a lb tr o c k e n e 165 —- H o c h s p a n n u n g s - 168 — M essu n g 157 — p h y s ik a lis c h e G ru n d la g e n 149ff. —- R e g e n e ra tio n 152 —- R e s ts tr o m 150ff. — S p e rr s c h ic h t 154 — te c h n is c h e A u s fü h ru n g 165ff. -—- T o le ra n z e n 169 — u n g e p o lte 158 — V e r lu s tf a k to r 156 E le k tr o s ta tis c h e s M e ß s y ste m 14 E n ts t ö r u n g e in e r A u to m o b ilz ü n d v o r r ic h tu n g 213 E n ts t ö r u n g , S c h a ltb ild e r f ü r 2 04ff. E r g a n 118 E r s a tz s c h a ltu n g f ü r v e r lu s tb e h a f t e t e K a p a z it ä te n 4 9 ff. E r s a tz r e ih e n k a p a z itä t 55 ff. — F r e q u e n z v e r la u f 62, 69 E r s a tz r e ih e n w id e r s ta n d 5 5 ff. — F re q u e n z v e r la u f 58, 68 F a lz z a h l 140 F a r a d 9 F e ld , e le k trisc h e s l f f . — E n e rg ie d es e le k tris c h e n 6 — m a g n e tis c h e s 3 ff. — sk a la re s 1 F e ld lin ie l f f . F e ld s p a t 105 F e ld s tä r k e , e le k trisc h e l f f . — m a g n e tis c h e 4 — v e k to r l f f . F o rm ie ru n g 151 ff. F o r s te r i t 112 F r e q u e n t a 105, 112ff. F re q u e n z , E m p fa n g s - 38 — O sz illa to r- 38 — Z w isch en - 38, 43 F re q u e n z a b w e ic h u n g , p ro z e n tu a le 43 F re q u e n z d iffe re n z , k o n s t a n te 38ff. F ü lls to ffe 136 F u n k e n s p a n n u n g v o n G a se n 96 G ase, e le k tris c h e E ig e n s c h a f te n 9 4 f f . G e a p h ta lla c k 128 G las 121 ff. — b ild e n d e S to ffe 121 G le ic h la u f 3 3 ff. G lim m e r 127 — k o n d e n s a to r e n 17l f f . , 202 H a r tp a p ie r 148 H a u te f f e k t 71, 180 H e liu m 95 H e x a n 104 H o c h s p a n n u n g s k o n d e n s a to re n 19 l f f . H ü tc h e n k o n d e n s a to r e n 174 I g e lit 133, 136 I n d u k tiv i tä t s a b g le i c h 41 I n d u k t iv i tä t s u n te r s c h ie d e , K a p a z i tä ts a u s g le ic h v o n 3 3 ff. I n h i b it o r e n 99 I s o la tio n s s tr o m 90 I s o la tio n s w id e rs ta n d , s p a n n u n g s a b h ä n g ig e r 88 J u s tie r u n g v o n M e h r fa c h d re h k o n d e n s a to re n 34, 43 K a lig lim m e r 127 K a lz ie n ie ru n g s p u n k t 127 K a o lin 105 K a p a z i t ä t 9 — B e trie b s - 11 ff. —- B lin d w id e rs ta n d v o n -en 4 4 ff. —- e in e r D o p p e lle itu n g 20 — e in e r e b e n e n P l a t t e 18 —- e in e r K u g e l 14, 15 — ein e s z y lin d ris c h e n S ta b e s (D r a h te s ) 15ff. — g eg en E r d e 13ff. — -sa b w e ic h u n g , p r o z e n tu a le 43 — -sau sg leich b e i M e h r fa c h d re h k o n d e n s a to r e n 3 3 ff. — S c h u tz - 205, 208, 211 — S tre u - 12 ff. —- -s v e rla u f v o n D re h k o n d e n s a to re n 2 3 ff. — T eil- 11 ff. —- v e r lu s tb e h a f te te 4 9 ff. — V e r lu s tf a k to r 4 7 ff. S a c h v e rz e ic h n is 227 K a p a z i t ä t zw isch en E le k tr o d e n 18ff. K e r a f a r 105, 115, 117 K e ra m is c h e K o n d e n s a to r e n 174ff., 190, 192ff., 198ff. K e ra m isc h e W e rk s to ffe 104ff. G efüge 109 K ie se lsä u re 105 K lin o e n s ta tit 112 K o lo p h o n iu m 101 K o m p e n s a tio n , T e m p e r a tu r- 115, 175 K o n d e n s a to r , D re h - 20ff. — k o n s ta n te 21 — K r e is p la tte n - 19, 23 — K u g e l- 18 — P la t te n - 19 — S c h u tz rin g - 19 — Z y lin d e r- 18 K re so lh a rz e 136, 137 K u g e lfu n k e n s tre c k e 19 K u n s th a r z e 136, 137 L a d u n g 1 L a p la c e s c h e G leich u n g 8 L e is tu n g b e i K o n d e n s a to r e n 47 ff. — B lin d - 48 — S chein- 48 — -s fa k to r 47, 48 — Y e rz e rru n g s - 49 — W irk - 48 L e itfä h ig k e it b e i I s o la to r e n 90 — b e i M e ta lle n 89 — e le k trisc h e 4 — e le k tro ly tis c h e 90 — O b e rflä c h e n - 90, 92 L u f t, e le k trisc h e E ig e n s c h a fte n 9 4 ff. L u ftf e u c h tig k e it 91 — r e la tiv e 97 L u ftk o n d e n s a to r e n 170ff. L u n k e rb ild u n g 79, 100, 103 L u v ik a n 133 M ag n esia 107 M ag n esiaeisen g lim m er 127 M a g n e siu m o x y d e 105, 118 M a g n e siu m silik a te 105, 107ff. M a g n e s iu m tita n a te 105, 119 M a n te l 13 M ax w ellsch e G leich u n g e n 3, 5 M ax w ell-W ag n ersch e T h eo rie 49, 93 M e h rsc h ic h te n k o n d e n sa to r 78ff. M eh rw ellig k e it 44, 48 M e la tith 106 M etallisieren k e ra m isc h e r W e rk sto ffe 109 — v o n G lim m er 128 M e th a n ö l 98 M ik a n it 128 M in o sk o n d e n sa to re n 177, 178, 203 M ip o lam 136 M o m e n ta n w e rt v o n S trö m e n u n d S p a n n u n g e n 4 3 ff. M o n ta n w a c h s 101 M u sk o w it 127 M y calex 128 N a p h th e n ö l 98 N a tro n z e llu lo se p a p ie r 139, 145, 146, 148 N a tu rh a r z e 101 N e u tra le F o lie 144 N ie re n p la tte n k o n d e n s a to r 24 N iv e a u flä c h e 3 N o rm a lk o n d e n s a to re n 171 O berw ellen 44ff. Ö le, A lte ru n g s p ro d u k te 99 — e le k trisc h e E ig e n sc h a fte n 9 8 ff. — T ra n s fo rm a to re n - 100 O rg an isch e K u n s ts to ff e 130ff. O z o k e rit 101 O zon 96 P a p ie r 139 ff. — e le k trisc h e E ig e n s c h a fte n 143ff. — Im p rä g n ie ru n g 143 ff. P a p ie rw ic k e lk o n d e n s a to re n 1 5 9 ff., 178, 191 ff. — f ü r h o h e S p a n n u n g e n 191 — m i t Z u s a tz d ie le k trik u m 165 — N o rm e n 162 — P rü f u n g 163 — S e lb stre g e n e rie ru n g 162 — T o le ra n z e n 164 P a r a f f in 103 — öl 100 P a ra lle ls c h a ltu n g v o n K a p a z itä te n 9 --------------- u n d W id e r s tä n d e n 49 ff. 15* 228 S a c h v e rz e ic h n is P a s c h e n s c h e s G esetz 96 P e c h 101 P e r t in a x 149 P h e n o p la s te 130, 13 6 ff., 138, 148 P h lo g o p it 127 P la t te n s c h n it t 20, 2 3 ff., 41 — lo g a r ith m is c h e r 28 ff. P o is so n sc h e G le ic h u n g 8 P o la r is a tio n 5 P o lla p a s 137 P o ly a k r y ls ä u r e e s te r 133 P o ly m e ris a te 129, 130, 133ff. — M isch- 129, 136 P o ly m e ris a tio n 99, 100 P o ly s ty r o l 130, 133 ff. P o ly v in y lc h lo rid 133 P o ly v in y lk a r b a z o l 133 P o r o s itä t 141 P o rz e lla n 104ff. P o te n t ia l 1 — d iffe re n z 3 P re ß g a s k o n d e n s a to r e n 196 P r e ß s p a n 149 Q uarz 105, 126 R a n d v e r lö tu n g v o n K o n d e n s a to r w ic k e ln 161, 208 R e ih e n s c h a ltu n g v o n K a p a z itä te n 10 R e iß fe s tig k e it 140 R ö h r c h e n k o n d e n s a to r 175 R u t i l 105, 144ff. S a u g fä h ig k e it 141 S c h a ltu n g s k o m b in a tio n e n v o n K a p a z itä te n u n d W id e r s tä n d e n 52ff. S c h a ltv o rg ä n g e b e im K o n d e n s a to r 80 ff. S c h e ib e n k o n d e n s a to re n 174 S c h e in le is tu n g 48 -— B e s tim m u n g d e r 48 S c h e ite lw e rte v o n S tr ö m e n u n d S p a n n u n g e n 4 3 ff. S c h e lla c k 101, 148 S c h u tz k a p a z itä t 205, 208, 211 S c h w in d u n g 103, 106, 107 S ic h e lp la tte n k o n d e n s a to r 26 S ic h e ru n g e n f ü r S tö r s c h u tz k o n d e n s a to re n 207 S ie b f a k to r 72 ff. S ie b m itte l 71 ff. S in te ru n g 106 S ip a 105, 118 S p a n n u n g 3 — -s a b h ä n g ig e r W id e r s ta n d 80, 88, 91 — s te ile r 71 ff. k a p a z itiv e r 7 4 ff. S p e c k s te in , N a tu r - 111 — h a ltig e M a sse n 1 1 2 ff., 117 S ta b o l 133 S te a t it e 105, 1 07ff. — H e r s te llu n g s v e r f a h r e n 10 7 ff. S tic k s to ff 95, 96 S to c k p u n k t 98 S tö r s c h u tz k o n d e n s a to r e n 2 0 3 ff. •—- E ig e n fr e q u e n z 209 — f ü r K u rz w e lle n 209 —- S c h e in w id e r s ta n d s v e r la u f 209 S tr o m z u f ü h r u n g z u m R o to r 180 S ty r o fle x 133, 135 S u lfitz e llu lo s e p a p ie r 139, 145, 147 S u s z e p tib ilitä t 5 T a lk 111, 112 T e m p a 105, 119 T e m p e r a tu r a b h ä n g ig k e it d e r D ie le k tr iz i t ä t s k o n s t a n te 1 1 5 , 1 2 5 . . . 1 2 8 — d e s s p e z ifis c h e n W id e r s ta n d e s 91, 113, 121, 122, 126 T e r p e n tin ö l 100 T h e rm is c h e r A u s d e h n u n g s k o e ff i z ie n t 106, 114, 118, 119, 127 —- D u rc h s c h la g 92 T h o m s o n s c h e F o r m e l 43 T ita n d io x y d 105, 114 T o n s u b s ta n z h a ltig e M a sse n 105, 117 T o p f k o n d e n s a to re n 195, 199 T ria z e ta tf o lie 132 T r im m e r k o n d e n s a to r e n 3 3 ff., 1 88ff. T r o lit BC 132 — F 131 — W 132 T ro litu l 133ff. — L u v 133, 135 — S i 134, 135 T ro lo n 136 T ro p e n fe s te K o n d e n s a to r e n 175,178 S a c h v e r zeichnis 229 V D E -L e itsä tz e 91, 92. 102, 105, 139, 163, 207, 208 V e k to rd ia g ra m m e f ü r p a ra lle l u n d in R e ih e g e s c h a lte te K a p a z i t ä t e n u n d W id e r s tä n d e 5 3 ff. V e k to rfe ld 1 V e rg u ß m a s se n lOOff. — P r ü f u n g 102 V e rlu s te , d ie le k trisc h e 49 — O h m sch e 49 V e rlu s tw in k e l 47 V e rlu s tfa k to r 47 — ein e r K a p a z it ä t 47 ff. — ein es S c h w in g u n g sk reises 32 — F re q u e n z a b h ä n g ig k e it 94 — F re q u e n z g a n g 53, 54, 58, 62, 67, 71 — m e ß g e r ä te 48 — T e m p e r a tu ra b h ä n g ig k e it 100, 104, 113, 115ff., 118, 123 ff., 128, 145ff. — v o n Is o lie rsto ffe n 93 V e rs c h ie b u n g sstro m d ic h te 4 ff. V e rz e rru n g s le istu n g 49 V in ifo l 133 V is k o s itä t 98 V u lk a n fib e r 144 U ltra k u rz w e lle ix k o n d e n sa to re n 173 W a c h s 101 W a g n e rse h e T h e o rie 41, 93 W a sse r, e le k trisc h e E ig e n s c h a fte n 97 — a u fn a h m e v o n Is o la tio n s m a te ria lie n 106, 114, 117, 119, 129, 131, 134, 136, 137, 139, 141, 142, 149 — h a u tb ild u n g 91, 125, 126, 128 — Stoff 95, 96 W id e rs ta n d , O b erfläch en - 91, 92 W irb e lfre ih e it d es e le k trisc h e n F e l d e s 3 W irk k o m p o n e n te v o n S p a n n u n g e n u n d S trö m e n 50 W irk le istu n g 48 — B e stim m u n g 48 W o llfe tt 101 X y lo l 100, 104 Z e itk o n s ta n te 82, 83ff. — eines te c h n isc h e n K o n d e n s a to rs 87 Z ellu lo id 131 Z ellulose 130, 139 — m a s se n 129, 130ff. Z irk o n d io x y d 105, 115 Druck der August Pries GmbH, in Leipzig P H Y S I K U N D T E C H N I K D E R G E G E N W A R T ABTLG. F E R N M E L D E T E C H N I K B A N D I : E inführung in die Theorie und T echnik der D ezim eter- w ellen. V on D r.-In g. 0 . Groos. T E IL I : D i e S c h w i n g u n g s - e r z e u g u n g u n d ih r e B e e i n f l u s s u n g . V I I I , 188 S eiten m itl5 7 A b bildungen. 8°. G anzleinen RM 9.50 E rschienen im A u gu st 1937. B A N D I I : E inführung in die Yierpoltheorie der elek trischen N a ch richtentechnik. V on Prof. D r. R . Feldtkeller. I X , 142 S eiten m it 85A bbildg. 8 °. G anzleinen RM 10.— E rschienen im Januar 1938. B A N D I I I : H ochfrequenz - M eßtechnik. V on D r .-I n g . O. Zinke. X I I , 223 Seiten m it 221 A bbildungen. 8 °. G anzleinen RM 15.50 Erschienen im Februar 1938. B A N D IV : E inführung in die Siebschaltungstheorie der elek trischen N achrichtentechnik. V on Prof. D r. Richard Feldtkeller. X , 174 Seiten m it 130 A bbildungen. 8°. G anzleinen RM 12.— Erschienen im Januar 1939. B A N D V : A ntennen, ihre Theorie und T echnik. V on D r.-In g. H ellm ut Brückm ann. X IV , 340 Seiten m it 169 A bbildungen und 2 Tafeln. 8°. G anzleinen RM 2 2 .— E rschienen im März 1939. V E R L A G S. H I R Z E L • L E I P Z I G C l |
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