Electricity and magnetism:
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1874
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| 100 | 1 | |a Jenkin, Henry Charles Fleeming |d 1833-1885 |e Verfasser |0 (DE-588)117615129 |4 aut | |
| 245 | 1 | 0 | |a Electricity and magnetism |c by Fleeming Jenkin |
| 250 | |a 2. ed. | ||
| 264 | 1 | |a London |b Longmans, Green |c 1874 | |
| 300 | |a XXII, 379 S. |b graph. Darst. | ||
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| adam_text | CONTENTS,
CHAPTER I.
ELECTRIC QUANTITY.
PAGH
§ I. Definition of Electricity, and how it is produced by Friction ; I
Conductors, Insulators. § 2. Resinous and Vitreous Electricity ;
Attractions and Repulsions; meaning of a Charge. § 3.
Quantity of Electricity ; depends on the measurement of Force.
§ 4. Experiments illustrating the foregoing ; Electroscope. § 5.
Electricity at rest resides on the Surface of Conductors. § 6.
Justification of the names positive and negative Electricity.
§ 7. Attraction and Repulsion between Bodies positively and
negatively electrified. § 8. When Electricity is produced, equal
quantities of positive and negative Electricity are produced. § 9.
Electric Series or List determining the sign of the Electricity pro-
duced by Friction. § 10. Preliminary Explanation of the word
Potential. | 11. Statical Induction. § 12. The existence of
any Charge implies an equal and opposite induced Charge.
§ 13. Induction implies two Conductors at different Potentials
separated by Insulators. §14. Attractions and Repulsions con-
sidered as due to Induction. § 15. Distribution of Electricity
examined by Proof plane. § 16. Electrification does not imply
Charge at all points of Surface; I.eyden Jar or Condenser.
§ 17. Meaning of the measurement of a quantity of Electricity.
§ 18. Absolute Electrometer measures Quantity. §19· Pro-
duction of Electricity by other means than Friction; galvanic
Cell. § 20, Identity of Electricity, however produced. § 21.
Electricity produced by contact of Insulators. § 22. Electricity
produced by unequal distribution of Heat. § 23. Effect of a
Metal Screen between two electrified Bodies . . . .26
Contents.
xii
CHAPTER II.
POTENTIAL.
PAGE
r. Definition of Difference of Potentials. § 2. Work clone in 26
moving Electricity from one Point to another is not affected by
Path followed. § 3. Constant Potential. § 4. The Potential
of a Body is the difference, of its Potential from that of the
Earth, g 5. On what electric Potential depends. § 6. Mean-
ing of higher and lower Potential. § 7. Illustration of
foregoing; Surface and Interior of electrified Conductor. § 8.
Space round charged Conductor, g 9. Illustration by Leyden
Jar. g 10. More complex Illustration, g II. Effect of Changes
of electrification of Leyden Jar on Potentials of the several parts.
Effect of connecting two Jars, g 13. Relation between Charge
and Potential, g 14. Immaterial which coating of Leyden Jar
is to Earth. § 15. Theory of Electroscopes. § ։6. Flow of
Electricity determined by difference of Potential, §17. Effect
of joining a Conductor by a Wire with a Point of no Capacity
but of different Potential, g 18. Electricity in motion always
does work. § 19. Difference of Potential produced by Induction,
g 20. Difference of Potential produced by Friction. § 21. Dif-
ference of Potential produced by Contact; Elcctric-contact Series
or List of Conductors. § 22. Analogies and differences in the re-
sult of contact in the cases of Solids and Liquids ; Galvanic-cell;
Electrolytes; Electrolysis. § 23. Electromotive Force, E. M. F.
g 24. It is affected by Temperature. § 25. Currents of Elec-
tricity and Magnetism can produce E. M. F. g 26. Unit of
E. M. F. or difference of Potential...................52
CHAPTER III.
CURRENT.
g ։ Definition of voltaic or galvanic Current. § 2. Transient and 52
permanent Currents, g 3. Currents involve the performance of
work. § 4. Is the Current due to contact or chemical action ?
g 5- Why no arrangement of Metals without Electrolytes can
give a Current. § 6. Attractions and Repulsions between Cur-
rents. § 7. Verification of Statements by Experiments ; rectangle
and straight Wire. § 8. One Rectangle inside another. § 9.
Contents.
Xül
Multiplication of effect by multiplying the number of turns made
by the Wires ; Electro-dynamometer. § io. Solenoids and fla
Coils. § ii. Analogy between Magnets and Solenoids; Galvano-
meters and Galvanoscopes. §12. Simplest form of Mirror Gal-
vanometer. § 13. Magnetization oflron by Currents. § 14. A
Current heats the conducting Wire; amount of Heat. § 15.
Electrolysis described; Ions, Anode Kathode; electrolysis of
Water. § 16. Effect produced by Currents traversing bad Con-
ductors. § 17. Analogy between effect of Current on Magnet
and effect of Current of Water in Pipe on a Piston. § 18. One
Current can induce another; this is explained by the above analogy.
§ 19. Direction of the induced Current under various Circum-
stances ; distinction between electromagnetic and electrostatic
Induction. § 20. Induction due to the increase or decrease of
a Current. § 21. Reaction of the induced on the inducing Cur-
rent. § 22, Induction in a Circuit which is not closed. § 23.
Case where the closed Circuit is long and of sensible Capacity.
§ 24. Strength of constant Current equal in all parts of Circuit.
§ 25. Currents are not constant in all parts of Circuit when they
start and cease. § 26. Thermo-electric Currents. § 27. Resumé
of the several Causes which produce Currents .... 80
CHAPTER IV.
RESISTANCE.
I. Meaning of Resistance. § 2. Definition of Resistance; 81
Ohm’s Law. § 3. Relations between Resistance and Dimen-
sions of Conductor; comparison of Resistance by differential
Galvanometer. § 4. Relation between Resistance and Weight
per Unit of length of Conductor. § 5. Effect of Temperature
on Resistance. § 6. Object of determining Resistance. § 7.
Effect of Changing Resistance of Parts of a Voltaic Circuit;
Cells joined in Scries and Multiple Arc. § 8. Effect of Resist-
ance of Galvanometer. § 9. Apparent Resistances which are
not really Resistances. § 10. Polarisation of Insulators. § 11.
Resistance of Air to Sparks or Brushes not subject to Ohm’s
Law, §12. Resistance of Rarefied Gases . . . .93
XIV
Contents.
•CHAPTER V.
ELECTRO-STATIC MEASUREMENT.
PAGB
§ I. Fundamental Units. § 2, Definition of Unit Quantity, Unit 94
Difference of Potentials and Unit Resistance. § 3. Relation
between Force of Attraction or Repulsion and Quantity of
Electricity. § 4. Definition of Capacity ; Expression for Capa-
city of simple geometrical Forms. § 5. Capacity of Conduc-
tors ; specific inductive Capacity of Materials ; Table. § 6.
Effect of polarisation or absorption on Capacity of Condensers.
§ 7. Experimental Measurement of Difference of Potential be-
tween two opposed Plane Surfaces by Thomson’s guard ring
Electrometer. § 8. Electromotive Force of Daniell’s Voltaic
Cell. § 9. Capacity of long cylindrical Conductor ; Subma-
rine Cable. § 10. Electric Density; electrostatic Force. §11.
Diminution of air pressure in consequence of Electricity on
Surface of Conductor ; Table giving Relation between Electro-
static Force and Sparks from convex Plates. § 12. Effects of
silent Discharge or Crush and Sparks from Points. § 13.
General Ideas on distribution of Electricity. § 14. Material
representation of electrostatic Units. § 15. Equations ex-
pressing Relations between electrostatic Units. Unit of Cur-
rent in electrostatic Measure..........................109
CHAPTER VI.
MAGNETISM.
§ ։. Description of a Magnet. § 2. Definition of north and 109
south Poles; the Earth a Magnet. § 3. Definition of tho
strength of a Pole and of Unit Pole. §4. Magnetic Field;
intensity of Field; lines of Force. § 5. Lines of Force from
Single Pole and in uniform Field. § 6. Couple acting on
Magnet in uniform Field; Magnetic Moment; Intensity of
Magnetisation. § 7. Magnetism produced by magnetic In-
duction ; paramagnetic and diamagnetic Bodies. § 8. Effect
of laying bar Magnets side by side. § 9. Residual Magnetism
and coercive Force. § 10. Magnetic Potential; equipotential
Surfaces. § 11. Faraday’s Lines of Force completely map out
Contents.
XV
PAGE
magnetic Field. § 12. Magnetic Fields due to single Pole
and to single long straight Current. § 13. Importance of a
Knowledge of magnetic Fields in practical Telegraphy. § 14.
Position of Poles in bar Magnets; the fragments of a Magnet
are Magnets ; a Magnet induces Poles in all Bodies which it
attracts. § 13. How Magnets are made. § 16. Electro-mag-
nets ; ring Magnets produce no magnetic Field. § 17. Mag-
netic Moment of a long thin Bar and of a Sphere in Terms of
Intensity of magnetic Field. § 18. Coefficient of magnetic In-
duction for Iron. § 19. Coefficient of magnetic Induction for
other Materials. § 20, Coefficient of Magnetic Induction for
paramagnetic Bodies. § 21. Attraction between a Magnet and
Armature .......... 125
CHAPTER VII.
MAGNETIC MEASUREMENTS.
§ I. Introduction to Measurement of magnetic Phenomena in ab- 126
solute Measure. § 2. Magnetic Meridian; magnetic Declina-
tion j magnetic Inclination; Dip. § 3. Periodic Changes in
Earth’s Magnetism ; isoclinic Lines. § 4. Horizontal Compo-
nent of Earth’s Magnetism. § 5- Determination of magnetic
Moment of a Magnet and of horizontal Component H of Earth’s
Magnetism. § 6. Single Experiment will determine mag-
netic Moment of Bar in terms of H. § 7. Units to be employed
in above Measurements. § 8. IIow to find Moment of Inertia
of a given Weight j Comparison of magnetic Moments. § 9.
Difference between real Magnet and hypothetical Magnet . 133
CHAPTER VIII.
electro-magnetic measurement.
§ I. Electro-magnetic System of Units based on action of Currents 133
on Magnets ; Definition of unit Current. § 2. Ratio between
electrostatic and electro-magnetic Series. § 3. Tangent Galva-
nometer used to measure Current in electro-magnetic Measure.
§ 4. Ampère’s Theory of the action of Currents on Currents.
§ 5. Weber’s Electrodynamometer. § 6. Kohlrausch’s Method
XVI
Contents.
of measuring Current. § 7- Action between Rings conveying
Currents in parallel Planes. § 8. Magnetic Field produced by
Current in a long Helix. § 9. Theory of the Solenoid. § xo.
Sucking action of Solenoid on Bar of Iron partially covered by
it. § II. Difference between hollow Magnet and Solenoid.
§ 12. Effect of introducing soft iron Wire into a Solenoid . 146
CHAPTER IX.
MEASUREMENT OF ELECTRO-MAGNETIC INDUCTION.
§ I. Electro-magnetic Force experienced by a Wire moving in a 147
magnetic Field. § 2. Electromotive Fofce produced in a Wire
so moving. § 3. Illustration of the foregoing. § 4. Rotation
of a Coil in a magnetic Field. § 5. Determination of the Re-
sistance of a Conductor in electro-magnetic Measure by the ro-
tation of a Coil in a magnetic Field. § 6. Second Method
adopted by electrical Standards Committee of British Associ-
ation for Advancement of Science. § 7. Electromotive Force
produced in a Wire by the increase or decrease of Current in a
neighbouring Wire. § 8. Mathematical Expression for this
E. M. F. § 9. Measurement of electric Quantity in electro-
magnetic Measure. § 10. General Deductions applicable to
Practice...........................................157
CHAPTER X.
UNITS ADOPTED IN PRACTICE.
§ I. British Association Standard of Resistance. § 2. Practical 158
Units of electromotive force and Capacity. § 3. Practical Units
are all intended to be Multiples of absolute electro-magnetic
Units. § 4. Units of Current and Quantity; Ohm, Volt,
and Farad; Farad per Second. § 5. Multiples and Sub-
multiples; Dimensions of Units; Table of Units compared
with absolute Measure; Table of Dimensions of Units ; useful
Constants for the conversion of Measurements expressed in
Terms of one Series of fundamental Units into Measurements
based on another fundamental Series.................. 165
Contents.
xvu
CHAPTER XI.
CHEMICAL THEORY OF ELECTROMOTIVE FORCE.
глав
§ I. Electrolysis. § 2. Electro-positive and electro-negative Ions. 166
§ 3. Electrolysis of Salts. § 4. Electro-chemical Series;
Table, § 5. Electro-chemical Equivalents ; Table. § 6.
Relation between Work done by the Current and Electro-
lysis. § 7. Measurement of chemical Affinity by electro-
motive Force required for Electrolysis. § 8. Calculation of
electromotive Force produced by a Combination, in Terms of
the heat of Combination. § 9. Electromotive Force of Danielí’s
Cell calculated from chemical Action. § 10. Practical Appli-
cations of Electrolysis. § it. Mode of Transfer of Ions through
the Electrolyte.....................................174
CHAPTER XII.
THERMO-ELECTRICITY.
§ I. Definition of Thermo-electric Power of a Circuit of two 174
Metals. § 2. Thermo-electric Series; Table. § 3. Electromo-
tive Force of a thermo-electric Pair producing a Current in a
complex Circuit. § 4. Variations in thermo-electric Series due
to change of Temperature; Diagram. § S- Calculation of
E.M.F. of a thermo-electric Pair from their thermo-electric
Powers at different Temperatures. § 6. Neutral Points. § 7^.
Professor Tait’s Law ; Calculation of E.M.F. of a thermo-electric
Pair from Diagram and from Table. § 8. Addition of Electro-
motive Forces of Pairs arranged in Series. § 9. Thermo-electric
Action of non-metaffic Substances. § ։o. Measurement of
Temperature by Thermo-electric Batteries. § II. Peltier’s Law
of absorption and evolution of Heat at the Junctions. § 12.
Sir William .Thomson’s Law; absorption and evolution of Heat
at other parts of the Circuit.....................187
CHAPTER XIII.
GALVANOMETERS.
§ I. General Description and Classification. § 2. Galvanoscopes 187
with vertical weighted Needles. § 3. Relation between the
Circuit and Class of Galvanometer to be employed ; long Coils
a
XVIII
Contents.
PACK
and short Coils ; Intensity and Quantity. § 4. Equal Deflec-
tions 011 any constant Galvanometer indicate equal Currents.
§ 5. How to measure and regulate the sensibility of Galvano-
meters. § 6. Astatic Galvanometers. § 7. Tangent Galvano-
meters. § 3. Sine Galvanometers. § 9. Best form of Coil for
mirror Galvanometers. § 10. Graded Galvanometers. § 11.
Dead beat Galvanometers. § 12. Marine Galvanometers. § 13.
Differential Galvanometers. § 14. Shunts used to vary Sensi-
bility. § ij. General Remarks on constructive Details . . 203
CHAPTER XIV.
ELECTROMETERS.
§ I. General Description ; Canton’s, Bennet’s, Peltier’s, Bohnen- 203
berger s, heterostatic Electrometers. § 2. Sir William
Thomson’s quadrant Electrometer. § 3. Sir W. Thomson’s
portable Electrometer. § 4. Absolute Electrometers . .211
CHAPTER XV.
GALVANIC BATTERIES.
§ I. Single fluid Cell; common zinc and copper Cell; sand 211
Battery ; Smee’s and Walker’s. § 2. Points of Merit in a gal-
vanic Cell. § 3. Polarisation by deposition of Gas on Plates
of Cells. § 7. Local action causing waste of Zinc ; amalga-
mation of Zinc. § S. Inconstancy of Solution in single fluid
Cell. §9. Darnell s Cell; Double Eluid. § 10. Theory of
Daniell’s Cell. § 11. Practical management of Darnell’s Cell.
§ 12. Large Forms of Daniell’s Cell ; sawdust Cells. § 13.
Sir William Thomson’s or Menotti’s sawdust Cell ; gravitation
Cell. § I4. Marie Davy’s, Grove’s, Bunsen’s, Faure’s Cells ;
Chromate of Potassium Element ; Leclanché’s Cell ; L. Clark’s
Cell. § 1$. Practical Management of a galvanic Battery . . . 22S
CHAPTER XVI.
MEASUREMENT OF RESISTANCE.
§ ։. Arrangement and construction of Boxes of resistance Coils, 229
§ 2. Alternative Arrangements and practical Details. § 3. Use
of Shunts. § 4. Definition of Conductivity ; addition of Con-
Contents,
ductivities. § 5. Comparison of Resistances by Comparison of
Deflections on Galvanometers. § 6. Extension of this Method
by the use of Shunts ; Tests of Insulation of Core of Submarine
Cables. § 7. Four Methods of determining the Resistance of
a Battery. § 8. Comparison of Resistances by shunted diffe-
rential Galvanometer. § 9. Potential at different Points of a
Conductor through which a permanent Current is flowing.
§ 10. No Current flows through a Wire conecting two Points
of two Circuits if these Points are at one Potential; this
Law allows us to divide two Conductors of different resist-
ances in one and the same ratio. §11. Measurement of
Resistance by Wheatstone’s Balance or Bridge. § 12. Kirch-
hoff’s Laws. § 13. Theory of Bridge deduced from Kirch-
hoff’s Laws. § 14. Specific resistance of Materials; Defini-
tion ; Table for Metals. § 15. Specific Conductivity. § 16.
Effect of Temperature on specific resistance of Metals. § 17.
Specific resistance of Insulators, Gutta-percha, India-rubber;
Electrification. § 18. Measurement of resistance of Insulators
by loss of Charge. § 19. Effect of Temperature on specific
resistance of Insulators. § 20. Specific resistance of Miscel-
laneous Insulators. § 21. Graphite, gas Coke, Tellurium Phos·
phorus. § 22. Specific resistance of liquid Electrolytes. § 23.
Precautions to be observed when measuring high Resistances . 261
CHAPTER XVII.
COMPARISON OF CAPACITIES, POTENTIALS, AND QUANTITIES.
§ I. Comparison of Capacities by relative Throws of Galvano- 261
meter ; ballistic pendulum Formula. § 2. Effect of shunting
Galvanometer. § 3. Differential Methods with Galvanometer
and resistance Slides. § 4. Comparison by Platymeter. § 5.
Absolute Capacity from ballistic Formula. § 6. Comparison
of Potentials. § 7. Comparison of Quantities.... 268
CHAPTER XVIII.
FRICTIONAL ELECTRICAL MACHINES.
§ 2. Electrophorus. § 2. Common frictional Machine. § 3. Con- 268
ductors or Condensers used with frictional Machines. § 4. Sir
William Armstrong’s Machine producing Electricity by Steam
issuing in a Jet..................................273
XX
Contents.
CHAPTER XXX.
ELECTRO-STATIC INDUCTIVE MACHINES.
§ I. C. F. Varley’s Arrangement; Sir William Thomson’s replen- 273
lsher and Mouse Mill. § 2. Holtz electrical Machine . . 279
CHAPTER XX.
MAGNETO-ELECTRICAL APPARATUS.
§ i. Definitions. § 2. Pixii or Clarke’s Apparatus. §3. Rise 279
and Fall of induced Current. § 4. Mr. T. Holmes’ Apparatus.
§ 5. Limit of Current. § 6. Mr. Wild’s and Mr. Judd’s
Apparatus. § 7. Siemens’ Arrangement § 8. Magneto signal-
ling Keys. § 9. Inductorium, or RuhmkoriFs Coil. § ։o. Siemens’
large Inductorium ; Discharges through Geissler Tubes . .29։
CHAPTER XXI.
ELECTRO-MAGNETIC ENGINES.
§ I. Elementary Combinations in which action between Currents 291
produces Rotation. § 2. Rotation of Magnet caused by action
of Current. § 3. Electromotors; Froment’s Engine ; beam
Engine. § 4. Relative Economy of heat Engines and Electro-
motors . ...................... 296
CHAPTER XXII.
TELEGRAPHIC APPARATUS.
§ 1. Classification of Instruments, Class I. and Class II. § 2. De- 296
scription of telegraphic Circuit. § 3. Elements of which tele-
graphic Alphabets are compounded; Class I. § 4. Morse
Alphabet. §5. Morse Apparatus; Ink-writer j Bain’s System,
or electro-chemical Morse. § 6. Single Needle j Bell. § 7.
Relays. § 8. Double-current System, § 9. Return Currents;
Discharging Keys. § 10. General Remarks on Design of
Telegraphic Apparatus. § II. Magneto Senders. § 12. Rate
Contents.
XXI
of working; Wheatstone’s automatic Transmitter. § 13.
Class II.; Step by step dial Instruments; Siemens’ and
Wheatstone’s. § 14. Step by step Printers. § 15. Hughes’
printing Instrument. § 16. Bakewell’s and Caselli’s. § 17-
Duplex System; Steam’s, Siemens’, Frischen’s. § 18. Bells . 327
CHAPTER XXIII.
SPEED OF SIGNALLING.
§ I. Velocity of Electricity; Retardation ; Law of Variation in 327
the incipient Current; arrival Curve ; Result of successive
Signals. § 2. Effect of rapidly alternating Currents. § 3.
Retardation on land Lines. § 4. Retardation on Sub-marine
Cables; use of mirror Galvanometer as receiving Instrument.
§ 5. Sir William Thomson’s siphon Recorder. § 6. Varley’s
System of signalling by Condensers; recorder Alphabet. § 7.
Speed of working with various Instruments and Lines . . 338
CHAPTER XXIV.
TELEGRAPHIC LINES.
§ I. General Description. § 2. Sizes of iron Wire used for land 338
Lines; Poles. § 5. Insulation of land Lines; Designs for
Insulators ; Objects aimed at in Design. § 4. Danger of Con-
tact between adjacent Wires. § 5. Effect of uniform Leakage
on received Current; allowable Leakage. § 6. Description of
submarine insulated Conductor; Resistance per Knot of Con-
ductor ; Insulation Resistance of insulating Sheath ; Constants
for Gutta-percha and Hooper’s Material. § 7. Capacity per
Knot of submarine Cables. § 8. Anglo-American Type of
Cable j other Types of Cable.........................349
CHAPTER XXV.
FAULTS IN TELEGRAPHIC LINES.
§ I. Classification of Faults. § 2. Flow to find Position of a Fault 349
causing a Leak to Earth. § 3. Second Method. § 4. Third
Method by Wheatstone Bridge when there is a return Wire.
XXII
Contents.
PAGE
§ 5. Determination of Position of a small Fault by simultaneous
Tests at both Ends of Line. § 6. Effect of Faults. § 7. Fault
involving loss of Continuity. § 8. Fault produced by Contact
between adjacent Conductors...............................356
CHAPTER XXVI.
USEFUL APPLICATIONS OF ELECTRICITY OTHER THAN
TELEGRAPHIC.
§ I. Classification. § 2. Electro-metallurgy; Electro-plating. 357
§ 3. Reproduction of Objects. § 4. Reduction of Minerals j
Electrolysis. § 5. Electric Light j Holmes’ Lamp ; Waring’s
Light. § 6. Firing of Mines ; Fuses. § 7. Medical Applica-
tions. § 8. Clocks, Governors, and Chronoscopes . . . 364
CHAPTER XXVII.
ATMOSPHERIC AND TERRESTRIAL ELECTRICITY.
§ ։. Distribution of Electricity on Surface of Earth. § 2. Earth 36s
Currents. § 3· Examination of Potential of the Atmosphere by
Flame-bearing or Water-dropping Apparatus. § 4. Connexion
between earth Currents and Magnetism. .... 367
CHAPTER XXVIII.
mariner’s compass.
§ ։. General Description. § 2. Deviation from Magnetic Meri- 367
dian; Methods of Correction........................................368
|
| any_adam_object | 1 |
| author | Jenkin, Henry Charles Fleeming 1833-1885 |
| author_GND | (DE-588)117615129 |
| author_facet | Jenkin, Henry Charles Fleeming 1833-1885 |
| author_role | aut |
| author_sort | Jenkin, Henry Charles Fleeming 1833-1885 |
| author_variant | h c f j hcf hcfj |
| building | Verbundindex |
| bvnumber | BV023784875 |
| ctrlnum | (OCoLC)915873197 (DE-599)BVBBV023784875 |
| edition | 2. ed. |
| format | Book |
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| id | DE-604.BV023784875 |
| illustrated | Illustrated |
| indexdate | 2024-07-09T21:36:45Z |
| institution | BVB |
| language | English |
| oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-017427083 |
| oclc_num | 915873197 |
| open_access_boolean | |
| owner | DE-634 |
| owner_facet | DE-634 |
| physical | XXII, 379 S. graph. Darst. |
| publishDate | 1874 |
| publishDateSearch | 1874 |
| publishDateSort | 1874 |
| publisher | Longmans, Green |
| record_format | marc |
| spelling | Jenkin, Henry Charles Fleeming 1833-1885 Verfasser (DE-588)117615129 aut Electricity and magnetism by Fleeming Jenkin 2. ed. London Longmans, Green 1874 XXII, 379 S. graph. Darst. txt rdacontent n rdamedia nc rdacarrier Magnetismus (DE-588)4037021-5 gnd rswk-swf Elektrizität (DE-588)4014216-4 gnd rswk-swf Elektrizität (DE-588)4014216-4 s DE-604 Magnetismus (DE-588)4037021-5 s KOBV Fremddatenuebernahme application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=017427083&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
| spellingShingle | Jenkin, Henry Charles Fleeming 1833-1885 Electricity and magnetism Magnetismus (DE-588)4037021-5 gnd Elektrizität (DE-588)4014216-4 gnd |
| subject_GND | (DE-588)4037021-5 (DE-588)4014216-4 |
| title | Electricity and magnetism |
| title_auth | Electricity and magnetism |
| title_exact_search | Electricity and magnetism |
| title_full | Electricity and magnetism by Fleeming Jenkin |
| title_fullStr | Electricity and magnetism by Fleeming Jenkin |
| title_full_unstemmed | Electricity and magnetism by Fleeming Jenkin |
| title_short | Electricity and magnetism |
| title_sort | electricity and magnetism |
| topic | Magnetismus (DE-588)4037021-5 gnd Elektrizität (DE-588)4014216-4 gnd |
| topic_facet | Magnetismus Elektrizität |
| url | http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=017427083&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
| work_keys_str_mv | AT jenkinhenrycharlesfleeming electricityandmagnetism |