PHYWE 2010
description
Transcript of PHYWE 2010
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http://www.science.com.tw
e-mail: [email protected]
PHYWE ..
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PHYWE 1913 Gttingen Dr. Gotthelf Leimbach PHYWE
e
PHYWE
90 145,000
PHYWE PHYWE
http://www.science.com.tw
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PHYWE20
1901190119011901
Wilhelm Conrad Rntgen
1902190219021902
Hendrik A. Lorentz
Pieter Zeemann
PHYWE
LEP 5.4.01-00 X ( Page 54)
PHYWE
LEP 5.1.10-07 ( Page 51)
1903 1903 1903 1903
Marie
Pierre CurieHenri
Becquerel
1907 1907 1907 1907
Albert A. Michelson
PHYWE
LEP 5.2.01-01 ( Page 52)
PHYWE
LEP 2.2.05-05 ( Page 21)
LEP 5.2.21-15 ( Page 53)
1910 1910 1910 1910
Johannes Diderik van der Waals
1911 1911 1911 1911
Wilhelm Wien
PHYWE
LEC 01.13 Boyle ( Page 3)
LEC 01.12 Amontons ( Page 3)
PHYWE
LEP 3.5.01 -( Page 35)
1914191419141914
Max von Laue
1918191819181918
Max Planck
PHYWE
LEP 5.4.16-00 X
( Page 62)
PHYWE
LEP 5.4.09-00 -
( Page 61)
1921192119211921
Albert Einstein
1922192219221922
Niels Bohr
PHYWE
LEP 5.1.05-01
( Page 50)
PHYWE
LEP 5.4.10-00 X
( Page 61)
1923192319231923
Robert A. Millikan
1924192419241924
Manne Siegbahn
PHYWE
LEP 5.1.01-00 (Page 49)
PHYWE
LEP 5.4.40-00 X ( Page 65)
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1924192419241924
Willem Einthoven
1925192519251925
James Franck
Gustav Hertz
PHYWE
LEB 02.01 ( Page 02)
PHYWE
LEP5.1.03-15 - ( Page 49)
1927192719271927
Arthur H. Compton
C.T.R. Wilson
1929192919291929
Louis de Broglie
PHYWE
LEP 5.2.44-15 ( Page 56)
LEP 5.2.46-15 ( Page 56)
LEP 5.4.17-00 X ( Page 62)
PHYWE
LEP 5.1.13-00 ( Page 52)
1932193219321932
Werner Heisenberg
1936193619361936
Victor F. Hess
Carl D. Anderson
PHYWE
LEP 2.3.01-00
( Page 23)
PHYWE
LEP 5.2.04-00 ( Page 53)
LEP 5.2.32-00 ( Page 55)
1943194319431943
Otto Stern
1945194519451945
Wolfgang Pauli
PHYWE LEP 5.1.11-11 - ( Page 51)
PHYWE
LEP 4.5.02-00 ( Page 47)
1954195419541954
Max Born
Walter Bothe
1971197119711971
Dennis Gabor
PHYWE
LEP 5.1.13-00 ( Page 52)
PHYWE
LEP 2.6.03-00 ( Page 28)
LEP 2.6.07-01 ( Page 29)
1986198619861986
Heinrich Rohrer
Gerd Binnig
2009200920092009
Charles K. Kao
PHYWE
LEP 5.3.20-00
( Page 58)
PHYWE
LEP 2.6.10-00 ( Page 30)
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Applied Sciences www.phywe.com
Product Information
Applied Science
Applications of Ultrasounds
Medicine, Material Sciences and Industry
The combination of basic sets an extension sets fits to various application of ultrasound.
Ultrasounds are used in a multiple number of applications in different fields, whereas two basic techniques are used.
Echography: an ultrasonic pulse is sent through an object. The observed echo (intensity and time delay) is used to analyse static phenomena in various fields. In medicine, echography is used for tumor diagnostics, cardiography and ophthalmology. In material sciences, engineering and industry non destructive testing of metals, concrete, wood and composites, as well as level measurement in process control are major applications.
Doppler sonography: an ultrasonic pulse is send on a moving object and frequency shift due to Doppler effect is observed. From this, velocities are calculated which is of major interest in flow measurement in industry and medicine.
Features
Modular concept consisting of 2 basic and 8 extension sets
Rapid and comprehensive concept starting from the basics of ultrasounds up to numerous applications
21 described experiments in various fields (medicine, material sciences, industrial applications)
Easy set-up
Multiple measurement techniques are covered (echography, Doppler sono- graphy, time-motion mode etc.)
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Product Information
Applied Science
The following equipments allow to do 21 laboratory experiments in the field of ultrasound applications. With each basic kit (echography,13921-99 or Doppler sonography, 13923-99) several basic experiments can be realized. With the 8 extension kits, more application oriented experiments can be done. For instance, with the medical extension kit for echography (13921-04) together with the corresponding basic kit 13921-99, 4 experiments can be executed.
Basic Set Ultrasonic echoscope Ultrasonic echoscope, Ultrasonic probe 1 MHz, Ultrasonic probe 2 MHz, Ultrasonic gel, Ultrasonic test block transparent, Ultrasonic test cylinder (3), Ultrasonic reflexion plates.
Basic Set Ultrasonic echoscope
Basic set: Ultrasonic Doppler technique Ultrasonic Doppler unit, Centrifugal pump, Ultrasonic gel, Ultrasonic Doppler fluid, Ultrasonic probe 2 MHz, Doppler prism 3/8, Tube set
Basic set: Ultrasonic Doppler technique
Extension set : Non destructive testing Delay line 17, Delay line 38, Delay line 56, Sample for angle beam test, Test block with cracks, Test block with discontinuities, Delay line TOFD
Extension set : Non destructive testing
Ultrasonic probe 4 MHz Ultrasonic probe 4 MHz
Extension set: Shear waves Ultrasonic probe 1 MHz, Shear wave set (incl. 2 probe holders), Aluminium sample for shear waves, Hydrophone for sound field measurement, Hydrophone plate, Hydrophone holder, Holder block
Extension set: Shear waves
Extension set: medical ultrasonic diagnostics Heart model, Breast dummy, Eye dummy
Extension set: medical ultrasonic diagnostics
Ultrasonic probe 2 MHz Ultrasonic probe 2 MHz
Extension Set: CT Scanner CT scanner, CT control unit with tomography software, Water tank, CT sample
Extension Set: CT Scanner
Extension Set: Mechanics of flow Prisms and pipes incl. Tubes, Standpipe
Extension Set: Mechanics of flow
Extension Set: medical Doppler Sonography Arm dummy, Doppler probe 2 MHz
Extension Set: medical Doppler Sonography
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Applied iences www.phywe.com
Product Information
Applied Science
ScanningScanningScanningScanning----TTTTunnelingunnelingunnelingunneling----MicMicMicMicrrrroscopeoscopeoscopeoscope
Your entry into the nanoscale world
Fascinating Experiments in the field of quantum mechanics, solid state physics, material sciences and nanotechnology
Since the developement of the Scanning Tunneling Microscope (STM) by Gerd Binning and Heinrich Rohrer in 1981 and the nobel prize for physics in 1986 the STM is one of the most used device in the fields of surface sciences and nano sciences. It provides a direct and affordable access to the nanoscopic world and enables the investigation of effects and characteristics at atomic and molecular scale
The Compact-STM from PHYWE is designed for quick and reliable measurements by experts and novices alike. It is characterized by a compact design with integrated controll-unit and vibrational damping. Together with the easy handling and the included well-engineered software measureNano the PHYWE STM is a ideal devices for scientific classes, science centers, lectures, lab courses and research to convey the fascination of nanoscale world as well as applications of nanotechnology.
Features
Experiments in the fields of nano technology, quantum me- chanics, solid state physics, materi- al sciences
Compact measuring USB device with integrated control-unit and vibration damping
Imaging and spectroscopy of con- ducting samples at atomic scale
including measureNano, a well- engineered software for measu- ring, analyzing and visualization
Complete set, incl. HOPG- and Gold- Sample, Tools and Consumables
Easiest and most affordable method for a direct access into the nano world
Unpacking, Swichting-on, Measuring in 15 min to atomic resolution
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Product Information
Applied Science
For example, the imaging of graphite (HOPG) atoms can be performed without preparation time in only 15 min, from unpacking to the result of course. The Compact-STM is an USB-device and is being delivered in sta- ble aluminium case including consumables, tools and sample set.
A variety of experiments to following topics can be performed:
Material characteristics, like micro and nano morphology
Nano structures
Imaging of atoms and molecules
Solid State characteristics, such as conductivity
Quantum mechanical effects, such as tunneling and charge density waves
Single molecule contacts
Self organization of molecules (self assembled monolayers) and many more
2 x 2nm2, atomic resolution on graphite (HOPG)
13 x 13nm2, 2-D molecular crystals of dotriacontan and octadecanol on graphite
6 x6 nm2, Charge density waves on TaS2
11 x 11nm2, Electrode surface modified with multilayers of polyoxometalate
560 x 560nm2, evaporated gold terraces with mono atomic step height
Products
500 x 500nm2, carbon nanotubes on graphite
500 x 500nm2, polished copper surface
500 x 500nm2, nano grid
Compact-Scanning Tunneling Microscope Complete set to study conducting samples at atomic and molecular scale, incl. samples, tools and consumables Content of delivery: Scan head and control-unit on vibration-isolated experimentation board, scan head cover with magnifying lens, toolset for preparing and mounting tunneling tips,Pt-Ir wire for tunneling tips,Sample Kit incl. HOPG (high oriented polycrystalline graphite), gold (111) films on sample support, and 4 spare sample supports,power sup- ply, USB cable, aluminium case, software measureNANO, for measuring, analyzing and visualization, handbook including short description of starting experiments with graphite and gold (111), Quick Installation Guide Compact-Scanning Tunneling Microscope 09600.99
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http://www.science.com.tw
e-mail: [email protected]
PHYWE ..
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LEP 01 1.3.35-00 11 1.1.01-00 1 1.4.01-00 11
1.2.01-00 1
1.4.02-00 11
1.2.02-00 1 1.4.03-00 11
1.2.03-00 1
1.4.04-00 12
1.3.01-01 2 1.4.05-00 Du Noy method 12
1.3.01-11 Cobra3 2 1.4.06-11 Cobra3 12
1.3.03 -01/05 / 2 1.4.07-00 12
1.3.03 -11/15 -Cobra3 2 1.4.08-00 13
/ 1.5.01-00 13
1.3.05 -01/05 / 3 1.5.03-11 Cobra3 13
--- Cobra3 3 1.5.04-11 Cobra3 13 1.3.05 11/15
/ 1.5.05-15 Cobra3 14
1.3.07-01 3 1.5.06-01/15 Cobra3 14
1.3.07-11 --- Cobra3 3 1.5.07-01/15 Cobra3 14
1.3.09-01 4 1.5.08-11 Cobra3 14
1.3.11-00 4 1.5.09-11 Cobra3
15
1.3.12-00 4 1.5.10-00 15
1.3.13-01/05 5 1.5.11-00 15
1.3.13-11/15 Cobra3 5 1.5.12-00 15
1.3.15-00 5 1.5.13-00 16
1.3.16-01 5 1.5.14-00 16
1.3.19-00 /3 6 1.5.15-15 16
1.3.18-00 / 6 1.5.16-15 16
1.3.16-11 Cobra3 6 1.5.17-15 17
1.3.20-00 / 6 1.5.18-00 / 17
1.3.21-00 7 1.5.19-15 17
1.3.22-00 7 1.5.20-00 Lloyd mirror 17
1.3.23-01 / 7 1.5.21-15 Cobra3 18
1.3.23-11 Cobra3 7 1.5.22-00 18
1.3.25-01 8 1.5.23-00 18
1.3.25-11 Cobra3 8 1.5.24-15 Cobra3 18
1.3.26-11 Cobra3 8 LEP 02 1.3.27-01 8 2.1.01-01 19
2.1.02-00 19 1.3.27-11
Cobra3
9
2.1.03-00 19
1.3.28-01 / 9 2.2.01-00 19
1.3.28-11 / 9 2.2.02-00 20
1.3.30-00 9
2.2.02-05 20
1.3.31-00 10 2.2.03-00 20
1.3.32-00 10 2.2.04-00 / 20
1.3.33-00 10 2.2.05-05 21
1.3.34-00 10 2.2.05-00 21
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2.2.06-00
21
3.2.02-01
31
2.2.07-00 CO2 21 3.2.05-00 32
2.2.07-05 CO2 22 3.2.04-00 32
2.2.09-00 22 3.2.03-00 32
2.2.10-00 22 3.2.02-11 --- Cobra3 32
2.2.11-00 22 3.2.06-00 33
2.2.12-05 23 3.3.01-01 33
2.2.12-06 -- 23 3.3.01-11 --- Cobra3 33
2.3.01-00 23 3.3.02-00 33
2.3.02-00 23 3.4.01-00 34
2.3.03-00 24 3.4.02-00 100 34
2.3.04-00 24 3.4.03-00 34
2.3.04-05 24 3.4.04-00 34
2.3.05-00 24 3.5.01-01/15 35
2.3.06-00 25 3.5.02-00 35
2.3.06-05 25 3.6.01-00 35
2.4.02-01 25 3.6.02-00 35
2.4.02-11 --- Cobra3 25 3.6.03-00 36
2.4.04-00 Lamberts law 26 3.6.04-01/15 36
2.5.01-00 26 LEP 04 2.5.01-05 26 4.1.01-01 37
2.5.02-00 26 4.1.01-15 FG 37
2.5.03-00 27 4.1.02-00 37
2.5.04-00 27 4.1.03-00 37
2.6.01-00 27 4.1.04-01/15 38
2.6.01-05 27 4.1.06-01/15 38
2.6.03-00 28 4.1.07-00 38
2.6.03-05 28 4.1.08-00 38
2.6.03-06 I 28 4.1.09-01 39
2.6.04-00 28 4.1.09-15 FG 39
2.6.05-11 --- Cobra3 29 4.1.11-00 PEM 39
2.6.07-01/05 29 4.1.12-00 39
2.6.08-00 29 4.1.13-15 FG 40
2.6.09-00 Nd-YAG 29 4.2.01-00 40
2.6.10-00 30 4.2.02-01 40
2.6.11-00 2 30 4.2.02-15 FG 40
2.6.12-00 4 30 4.2.03-00 41
2.6.13-00 30 4.2.04-01 41
LEP 03 4.2.04-15 --- Cobra3 41 3.1.01-00 31 4.2.05-00 41
3.2.01-01 31 4.2.06-00 42
3.2.01-15 Cobra3 31 4.3.01-00 42
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4.3.02-01/15 - 42 5.2.01-01 52
4.3.03-01/15 42 5.2.01-11 ---Cobra3 52
4.3.04-00 43 5.2.03-11 ---Cobra3 52
4.3.05-00 43 5.2.04-00 53
4.3.06-00 43 5.2.20-15 53
4.3.07-11 43
4.3.08-00 44
5.2.21-01/11/15
01 with digital counter / 11 with Cobra3 / 15 with MCA
53
4.4.01-00 44 5.2.22-11/15 241 11 with Cobra3 / 5 with CA 54
4.4.02-01/15 44 5.2.23-11/15 226 11 with Cobra3 / 15 with MCA 54
4.4.03-01/11 44 5.2.24-11/15 11 with Cobra3 / 15 with MCA 54
4.4.04-01/11 45 5.2.31-00 55
4.4.05-01/11 45 5.2.32-00 55
4.4.06-01/11 RLC 45
4.4.07-00 45
5.2.41-01/11
01 with GM counter / 11 with Cobra3
55
4.4.08-00 RC 46
4.4.09-01/15 46
5.2.42-11/15
11 with Cobra3 / 15 with MCA
55
4.4.10-00 RLC 46 5.2.44-11/15 11 with Cobra3 / 15 with MCA 56
4.4.11-00 46 5.2.45-11/15 137m 11 with Cobra3 / 15 with MCA 56
4.4.12-11 47 5.2.46-11/15 / 11 with Cobra3 / 15 with MCA 56
4.5.02-00 47 5.2.47-11/15 X 11 with Cobra3 / 15 with MCA 56
4.5.04-00 47 5.3.01-01 p 57
4.5.05-00 47 5.3.01-11 p Cobra3 57
4.5.06-00 48 5.3.02-01/11 n 01 with teslameter / 11 with Cobra3 57
4.5.08-00 Horn antenna 48 5.3.03-00 57
4.5.09-00 Frustrated total reflection 48 5.3.04-01/11 58
LEP 05 5.3.10-00 58
5.1.01-00 49 5.3.11-00 58
5.1.02-00 49 5.3.20-00 STM 58
5.1.03-11 49 5.4.01-00 X 59
5.1.03-15 49 5.4.02-00 Molybdenum X 59
5.1.04-01/05 50 5.4.03-00 X 59
5.1.05-01/05 50 5.4.04-00 X 59
5.1.06-00 50 5.4.05-00 XMonochromatization 60
5.1.07-00 50 5.4.06-00 X 60
5.1.08 51 5.4.07-00 X K 60
5.1.10-05/07 51 5.4.08-00 X K 60
5.1.11-01/11 51 5.4.09-00 61
5.1.12-00 51 5.4.10-00 X 61
5.1.13-00 52 5.4.11-00 X 61
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5.4.12-00 X KL 61
5.4.13-00 62
5.4.14/15-00 X 62
14-00 with cubic structure / 15-00 with hexagonal structure
5.4.16-00 X 62
5.4.17-00 X 62
5.4.18-00 X 63
5.4.19-00 63
5.4.20-00 63
5.4.21/22/23 63
/24/25-00
5.4.26-00 64
55.4.27-00 64
5.4.28-00 X 64
5.4.40-00 X 65
5.4.41-00 X 65
5.4.42-00 X 65
5.4.45-00 X 65
5.4.46-00 X 66
5.4.47-00 X 66
5.4.48-00 X 66
5.4.50-00 X 66
5.4.51-00 X 67
5.4.52-00 X 67
5.4.60-00 67
5.4.60-00 68
5.4.61-00 K L 68
5.4.62-00 X 68
5.4.63-00 68
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PHYWE .. http://www.science.com.tw email: [email protected]
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1.1.01-00
1.2.01-00
()
1.2.02-00
1.2.03-00
:
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1.3.01-01
:
1.3.01-11 Cobra3 Cobra3 Cobra3 Cobra3
:
1.3.03 -01/05 ////
:
1.3.03 11/15 ----Cobra3 Cobra3 Cobra3 Cobra3 ////
:
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1.3.05 -01/05 ////
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1.3.05 11/15 ------------ Cobra3 Cobra3 Cobra3 Cobra3 ////
:
1.3.07-01
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1.3.07-11 ------------ Cobra3 Cobra3 Cobra3 Cobra3
:
s ts
t t2
2..
21
tgs =
g
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1.3.09-01
Steiner
:
1.3.11-00000000
:
1.3.12-00000000
//////
:
()
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1.3.11.3.11.3.11.3.13333----01/0501/0501/0501/05
:
1.
2.
3.
1.3.13-11/15 Cobra3 Cobra3 Cobra3 Cobra3
:
1.3.15-00
:
1.3.16-01
///
:
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1.3.16-11 Cobra3 Cobra3 Cobra3 Cobra3
/// /
:
a2 F2
2
r m
1.3.18-00 /
:
1.3.19-00 /3
////
:
3
1.3.20-00 /
/////
:
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1.3.21-00
///
:
1.3.22-00
///
//
:
g
1.3.23-01 /
////
/
:
(
)
1.3.23-11 Cobra3 Cobra3 Cobra3 Cobra3
////
//
:
g
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1.3.25-01
/////
///
:
y/t
1.3.25-11 Cobra3 Cobra3 Cobra3 Cobra3
/////
///
:
1.3.26-11 Cobra3 Cobra3 Cobra3 Cobra3 Harmonic oscillations of spiral springs
///
//
:
D
1. D
2. D
3. D
1.3.27-01
/////
//
///
//
::::
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1.3.27-11 Cobra3 Cobra3 Cobra3 Cobra3
/////
////
///
///
:
Cobra3
1.3.28-01 /
/////
/
:
1.3.28-11 / Cobra3 Cobra3 Cobra3 Cobra3
/////
/
:
Steiner
1.3.30-00
////
/G /
:
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1.3.31-00
/////
///
//2
:
1.3.32-00
/////
//
:
1.3.33-00
////
:
1.3.34-00
//
///
:
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1.3.35-00
///
/
:
Hugyens
1.4.01-00
/////
:
1.4.02-00
////
:
1.4.03-00
////
:
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1.4.04-00
//Stokes
law///
:
1.4.05-00 Du Noy method
/////
Etvs equation
:
1.4.06-11 Cobra3 Cobra3 Cobra3 Cobra3
///
:
1.4.07-00
////
:
()
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1.4.08-00
////
/////
///
:
1.5.01-00
/-/
:
1.5.03-11 Cobra3 Cobra3 Cobra3 Cobra3
:
1.5.04-11 Cobra3 Cobra3 Cobra3 Cobra3
/
:
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1.5.05-15 Cobra3 Cobra3 Cobra3 Cobra3
:
1.5.06-01/15 Kundts tube Cobra3 Cobra3 Cobra3 Cobra3
////
/
:
1.5.07-01/15 Quincke tube Cobra3 Cobra3 Cobra3 Cobra3
//////
//
WeberFechner law
:
()
1.5.08-11 C C C Cobra3 obra3 obra3 obra3
//
:
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1.5.09-11 Cobra3 Cobra3 Cobra3 Cobra3
/////
Huygens-Fresnel principle/
:
1.5.10-00
//////
Debye-Sear effect
:
1.5.11-00
////
/
:
1.5.12-00
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////
///
:
1.5.13-00
///
:
1.5.14-00
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///
:
1.5.15-15
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:
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1.5.16-15
///
:
1.5.17-15
///
/ /Poissons
spot/Babinets theorem
/Bessel function
:
1.5.18-00 /
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//Zone plate
:
,
1.5.19-15
////
:
1.5.20-00 Lloyd mirror
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:
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1.5.21-15 Cobra3
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:
1.5.22-00
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:
1.5.23-00
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Cornus spiral
:
Huygens
1.5.24-15 Cobra3
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//
/
:
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2.1.01-01
//////
2.1.02-00
//////
////
1.
2.
3.
(1)
(2)
(3)
(4) ()
2.1.03-00
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//-
2.2.01-00
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2.2.02-00
////
2.2.02-05
////
2.2.03-00
/////
2.2.04-00 /
-//
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2.2.05-00
/////
2.2.05-05
//////
2.2.06-00
///
///
/
//
2.2.07-00 CO2
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CO2
CO2
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2.2.07-05 CO2
2.2.09-00
2.2.10-00
, , , , , ,
, ,
2.2.11-00 Mach-Zehnder interferometer
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2.2.12-05 FabryProt interferometer
2.2.12-06 --
2.3.01-00
///
///
/
2.3.02-00
//Fraunhofer
diffraction
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PHYWE .. http://www.science.com.tw email: [email protected]
24
2.3.03-00
///
///Airy disk/
Airy ring///
/
2.3.04-00
///
/
2.3.04-05
///
2.3.05-00
///
/
-
PHYWE .. http://www.science.com.tw email: [email protected]
25
2.3.06-00
///
///
2.3.06-05
///
/
2.4.02-01
////
2.4.02-11 --- Cobra3
////
-
PHYWE .. http://www.science.com.tw email: [email protected]
26
2.4.04-00 Lamberts law
////
2.5.01-00
////
///
/4
90
1/4
2.5.01-05
//
/Maluslaw/
//
/4
90 /4
2.5.02-00
//
/Maluslaw/
//
-
PHYWE .. http://www.science.com.tw email: [email protected]
27
2.5.03-00
///
///
2.5.04-00
////
/
2.6.01-00
////
Verdets constant/
2.6.01-05
////
/
-
PHYWE .. http://www.science.com.tw email: [email protected]
28
2.6.03-00
///////
2.6.03-05
2.6.03-06 I
2.6.04-00
////
////
///
CO2
5W CO2
He-Ne CO2
-
PHYWE .. http://www.science.com.tw email: [email protected]
29
2.6.05-11 Cobra3
///
//
/
LDA (
)
2.6.07-01/05
///
///
//Littrow
prism/
He-Ne
-
He-Ne
2.6.08-00 Optical pumping
///
//
ND-YAG
ND-YAG ND-YAG
4
F3/2
2.6.09-00 Nd-YAG
////
////
Nd-YAG
Nd-YAG
KTP
-
PHYWE .. http://www.science.com.tw email: [email protected]
30
2.6.10-00
///
////
/Slope efficiency/
2.6.11-00 2
////
2f
2.6.12-00 4
////
4f
2.6.13-00
//////
//
-
PHYWE .. http://www.science.com.tw email: [email protected]
31
3.1.01-00
///Lattice
potential / /
Grneisen equation
,1.
(C4H3O2)
2.
3.
3.2.01-01
///
///
/Boyle-Mariotte law
/Gay-Lussacs law/
Charles law
3.2.01-15 Cobra3
//
/Amontons
Amontons
3.2.02-01
//
/////
CV CP
-
PHYWE .. http://www.science.com.tw email: [email protected]
32
3.2.02-11 Cobra3
CV CP
3.2.03-00
/////
/
-
3.2.04-00
///
///Interaction
potential/
3.2.05-00 Flammersfeld oscillator
/Polytropic
equation / Rchardts
experiment/
-
PHYWE .. http://www.science.com.tw email: [email protected]
33
3.2.06-00
////
///
/
(CO2 N2)
-
3.3.01-01
/ /
Dulong-Petit law///
Debye temperature
1.
2.
3. -
3.3.01-11 Cobra3
///
//
3.3.02-00
////
/
-
PHYWE .. http://www.science.com.tw email: [email protected]
34
3.4.01-00
//
Clausius-Clapeyron equation/
Vant Hoff law/
3.4.02-00 100
/////
40 85
-
3.4.03-00
Raoults law/
Henrys law /
Ebullioscopic constants//
Gibbs-Helmholtz
equation/Concentration ratio/
Degree of dissociation
1.
2.
3.
3.4.04-00
/Cryoscopic
constants//
///Vant Hoff
factor/Cryoscopy
()
-
PHYWE .. http://www.science.com.tw email: [email protected]
35
3.5.01-01/15
//
-
-
1
3.5.02-00
/ -
Wiedmann-Franz law///
///
Wiedmann-Franz
3.6.01-00
/////
//
3.6.02-00
///////
-
-
-
PHYWE .. http://www.science.com.tw email: [email protected]
36
3.6.03-00
/////
/
(k )
()
3.6.04-01/15
//
////
/
pV
-
PHYWE .. http://www.science.com.tw email: [email protected]
37
4.1.01-01
////
1. ()/
2. /
4.1.01-15 FG
////
4.1.02-00
//////
1.
2.
3.
4.
4.1.03-00
/////
//
-
PHYWE .. http://www.science.com.tw email: [email protected]
38
4.1.04-01/15
//
PTC/NTC/
Zener diode /
Avalanche effect//
//Mathieu rule
1.
2.
3.
4.1.06-01/15
//
//
()
4.1.07-00
//
Peltier coefficient//
Seebeck coefficient/
/
1. U0
IS
2.
Rie
3.
4.1.08-00
////
///
/////
/
-
PHYWE .. http://www.science.com.tw email: [email protected]
39
4.1.09-01
/PN ///
/////
//
4.1.09-15 FG
/PN /////
//
1.
2.
4.1.11-00 PEM
////
PEM
(PEM=)
PEM
4.1.12-00
////
//
-
PHYWE .. http://www.science.com.tw email: [email protected]
40
4.1.13-15 FG
///
---
II
/
4.2.01-00
////
E d U
4.2.02-01
////
4.2.02-15 FG
////
-
PHYWE .. http://www.science.com.tw email: [email protected]
41
4.2.03-00
/////
///
4.2.04-01
/////
//
4.2.04-15 Cobra3
///
//
4.2.05-00
/////
//////
/
-
PHYWE .. http://www.science.com.tw email: [email protected]
42
4.2.06-00
//
/////
0
4.3.01-00
///
//
4.3.02-01/15 -
/-///
/
()
4.3.03-01/15
///-
/
-
PHYWE .. http://www.science.com.tw email: [email protected]
43
4.3.04-00
///
4.3.05-00
///
4.3.06-00
///
4.3.07-11
////
/
H
B
-
PHYWE .. http://www.science.com.tw email: [email protected]
44
4.3.08-00
//////
//
[
4.4.01-00
////
()
4.4.02-01/15
///
//
4.4.03-01/11
/////
///Q
-
PHYWE .. http://www.science.com.tw email: [email protected]
45
4.4.04-01/11
///
/
4.4.05-01/15
///
/
4.4.06-01/11 RLC
////
////Q //
/
Q
4.4.07-00
//Graetz
rectifier//
/////
///
4.4.08-00 RC
-
PHYWE .. http://www.science.com.tw email: [email protected]
46
/ / Wein-Robinson
bridge/ T ///
Step response//
RC
4.4.09-01/15
///////
/ / Bode
diagram
4.4.10-00 RLC
////
4.4.11-00
///
4.4.12-11
-
PHYWE .. http://www.science.com.tw email: [email protected]
47
//
4.5.02-00
/Q///
/////
Q().
4.5.04-00
////
4.5.05-00
///
4.5.06-00
-
PHYWE .. http://www.science.com.tw email: [email protected]
48
///
///
4.5.08-00 Horn antenna
///
/
4.5.09-00 Frustrated total reflection
//////
//
-
-
PHYWE .. http://www.science.com.tw email: [email protected]
49
5.1.01-00
////
()
5.1.02-00
///
/
5.1.03-11
//
5.1.03-15
///
-
PHYWE .. http://www.science.com.tw email: [email protected]
50
5.1.04-01/05 01 with amplifier / 05 with electrometer
////
/
(h)
5.1.05-01/05 01 with amplifier / 05 with electrometer
///
(h)
5.1.06-00
///
////
/Doublets/Parahelium
/Orthohelium//
/Forbidden transition
1. He
2. Na
3.
5.1.07-00 Balmer seriesRydbergs constant
//
//Lyman
seriesPaschen series
Brackett seriesPfund
series///
-
PHYWE .. http://www.science.com.tw email: [email protected]
51
5.1.08.00
/////
///
/////
He Hg
5.1.10-05/07 05 with Electromagnet / 07 with Magnetic system
///
Bohr magneton//
(643.8nm)
-
5.1.11-01/11 SternGerlach experiment
///g /
///
5.1.12-00
////g/
gLand g-factor
ESR DPPH G
R(
)
a b
a b
-
PHYWE .. http://www.science.com.tw email: [email protected]
52
5.1.13-00
/ Debye-Scherrer
method////
5.2.01-01
///
///
-137
-137m
5.2.01-11 Cobra3
-137
-137
5.2.03-11 Cobra3
///
//Dead
time/
1.
n 20
2.
3.
-
PHYWE .. http://www.science.com.tw email: [email protected]
53
5.2.04-00
////
////
5.2.20-15
///
////
GeigerNuttall law/
/
241Am
5.2.21-01/11/15 01 with digital counter / 11 with Cobra3 / 15 with MCA
/////
//
-
- 1
-
(
2)
(
)
-
PHYWE .. http://www.science.com.tw email: [email protected]
54
5.2.22-11/15 241 11 with Cobra3 / 15 with MCA
///
/
241
Am
Magnifier
5V
6
10V 2
Ui UL
VUU L 55
1+=
(1) UL
Ui E0 = 5.486MeV
EI
00 U
UEE ii =
U0
(1)
5.2.23-11/15 226 11 with Cobra3 / 15 with MCA
///
////
//
(241Am)
266
Ra
5.2.24-11/15 11 with Cobra3 / 15 with MCA
///
//
/
x
dE/dx x
P(1013hPa)
xhPa
psx
1013=
(HeN2CO2)
-
PHYWE .. http://www.science.com.tw email: [email protected]
55
5.2.31-00
////
Mass coverage
Sr90
5.2.32-00
/
////
///
5.2.41-01/11 01 with GM counter / 11 with Cobra3
/
////
///
60
Co
5.2.42-11/15 11 with Cobra3 / 15 with MCA
/ / Pair
production///
-
1.3MeV
-
PHYWE .. http://www.science.com.tw email: [email protected]
56
5.2.44-11/15 11 with Cobra3 / 15 with MCA
////
/
KleinNishina formula
-
5.2.45-11/15 137m 11 with Cobra3 / 15 with MCA
/////
///
///X
/
137Cs
- X-
5.2.46-11/15 / 11 with Cobra3 / 15 with MCA
///
///
137
Cs 22
Na
5.2.47-11/15 XMoseleys law 11 with Cobra3 / 15 with MCA
///X
//X
-()
() Ka
-
X-
X-
-
PHYWE .. http://www.science.com.tw email: [email protected]
57
5.3.01-01 p
////
/////
///
5.3.01-11 p Cobra3
////
/////
///
5.3.02-01/11 n 01 with teslameter / 11 with Cobra3
////
/////
Meyer-Neldel rule
5.3.03-00
///
/ / Defect
electrons
-
PHYWE .. http://www.science.com.tw email: [email protected]
58
5.3.04-01/11
////
/Impurity depletion//
5.3.10-00
///
Townsend breakthrough mechanism/
////
/
5.3.11-00
///
/
d p
pd
5.3.20-00 STM
///
///
-
PHYWE .. http://www.science.com.tw email: [email protected]
59
5.4.01-00 X
Bremsstrahlung//
/////
/ / Order of
Diffraction
X
,
5.4.02-00 Molybdenum X
X////
/////
/
X
5.4.03-00 X
X////
/////
/
X
5.4.04-00 X
X/// X
X LiF
K Kb
-
PHYWE .. http://www.science.com.tw email: [email protected]
60
5.4.05-00 XMonochromatization
/////
//
X
5.4.06-00 X
/////
//
X
5.4.07-00 X K
X///
/Energy term symbols
X
K
5.4.08-00 X K
X///
/
X
K
-
PHYWE .. http://www.science.com.tw email: [email protected]
61
5.4.09-00 Duane-Hunt displacement law
X//X//
///
X
5.4.10-00 X
X///
//
X X
X
5.4.11-00 X
///
////
//
X
5.4.12-00 X KL
X ///
///
/
X
-
PHYWE .. http://www.science.com.tw email: [email protected]
62
5.4.13-00
X
X
5.4.14/15-00 X 14-00 with cubic structure / 15-00 with hexagonal structure
////
//
X
5.4.16-00 XLaue method
Crystal
classesBravais lattice
X
5.4.17-00 X
X
X
X
X
-
PHYWE .. http://www.science.com.tw email: [email protected]
63
5.4.18-00 X
X
Q
X
5.4.19-00
X
X
5.4.20-00
X////
/
Stereographic projection
5.4.21/22/23/24/25-00
////
////
/ X/X
21 with three cubic Bravais lattices 22 with diamond structure 23 with a hexagonal lattice structure 24 with tertragonal lattice structure 25 with cubic powder sample
-
PHYWE .. http://www.science.com.tw email: [email protected]
64
5.4.26-00
////
///
//
Debye-Waller factor//
/ X/X
X
-
5.4.27-00
////
////
/ X/X/
///
X
-
5.4.28-00 X
////
/////
/L
LIF X
k-69.5
l,m o
-
PHYWE .. http://www.science.com.tw email: [email protected]
65
5.4.40-00 X
////
X 2
40
380
X
K L
5.4.41-00 X
/X//
/Doping/PIN
///
X
X
5.4.42-00 X
/X//
Fluorescent yield/X/
//Escape peaks
//
X
5.4.45-00 X
/ X/X/
///
///
X
X
-
PHYWE .. http://www.science.com.tw email: [email protected]
66
5.4.46-00 X
/X//
Fluorescent yield/X/
//Escape peaks
//
X
X
5.4.47-00 X
/X//
//
X
X
5.4.48-00 X
/X//
////
X
X
5.4.50-00 X
/X//
/Auger effect/
/X///
/
X
X
-
PHYWE .. http://www.science.com.tw email: [email protected]
67
5.4.51-00 X
/X//
//X//
///
X
5.4.52-00 X
/X//
///
///
/
X
X
X
5.4.60-00
/X//
//
//
/
Ka X
-
PHYWE .. http://www.science.com.tw email: [email protected]
68
5.4.61-00 K L
/ X/X/
///
///
X
5.4.62-00 X
/X//
////
///
X
5.4.63-00
/X//
//
XX
-
http://www.science.com.tw
e-mail: [email protected]
PHYWE ..
-
LEC 01 LEC04
LEC 01.01 - 1
LEC04.01 11
LEC 01.02 : 1
LEC04.02 12
LEC 01.03 : 1
LEC 04.03 12
LEC 01.04 1
LEC 04.04 12
LEC 01.05 2 LEC 04.06 12
LEC 01.06 2 LEC 04.07 13
LEC 01.07 2 LEC 04.08 13
LEC 01.08 2 LEC 05
LEC 01.09 3 LEC 05.01 13
LEC 01.11 - 3 LEC 05.02 13
LEC 01.12 Amontons 3 LEC 05.03 14
LEC 01.13 3 LEC 05.07 14 LEC 02 //// LEC 05.08 14
LEC 02.01 4 LEC 05.09 14
LEC 02.02 -- Flammersfeld 4 LEC 05.10 15
LEC 02.03 4 LEC 06
LEC 02.04 4 LEC 06.01 15
LEC 02.05 5 LEC 06.02 15
LEC 02.06 5 LEC 06.03 15
LEC 02.07 5 LEC 06.04 16
LEC 02.08 5 LEC 06.05 16
LEC 02.09 6 LEC 06.06 16
LEC 02.10 6 LEC 06.07 16 LEC 02.11 6 LEC 06.08 17
LEC 02.14 6 LEC 06.09 Nernst 17
LEC 02.15 7 LEC 06.10 17
LEC 02.16 CO2CO 7 LEC 06.11 17
LEC 02.17 7 LEC 06.12 18
LEC 02.18 7 LEC 06.13 18 LEC 03 LEC 06.14 18
LEC 03.01 8 LEC 06.15 pH 18
LEC 03.02 8 LEC 06.16 19
LEC 03.04 8 LEC 06.17 pH () 19
LEC 03.05 8 LEC 06.18 19
LEC 03.06 9 LEC 06.20 19
LEC 03.07 9 LEC 06.21 Faradays 20
LEC 03.08 9 LEC 06.22 20
LEC 03.09 9 LEC 07
LEC 03.10 10 LEC 07.01 20
LEC 03.11 10 LEC 07.03 20
LEC 03.13 10 LEC 07.04 pKa 21
LEC 03.14 10
LEC 03.15 11
LEC 03.16 11
LEC 03.17 : 11
-
PHYWE .. http://www.science.com.tw email: [email protected]
1
LEC 01 LEC 01.01 -
-
LEC 01.02 :
LEC 01.03 : : : :
LEC 01.04
:
P V T n
-
PHYWE .. http://www.science.com.tw email: [email protected]
2
LEC 01.05
-
:
LEC 01.06
Poiseuilles
:
LEC 01.07
:
LEC 01.08
Stokes
:
-
PHYWE .. http://www.science.com.tw email: [email protected]
3
LEC 01.09
:
LEC 01.11 ----
-
:
-
-
LEC 01.12 Amontons Amontons Amontons Amontons
Amontons
:
Amontons Amontons
LEC 01.13
:
-
PHYWE .. http://www.science.com.tw email: [email protected]
4
LEC 02 //// LEC 02.01
:
LEC 02.02 Flammersfeld Flammersfeld Flammersfeld Flammersfeld
Rchardt
:
LEC 02.03
:
Cv Cp
LEC 02.04
:
-
PHYWE .. http://www.science.com.tw email: [email protected]
5
LEC 02.05
:
LEC 02.06
:
LEC 02.07
:
LEC 02.08
:
-
PHYWE .. http://www.science.com.tw email: [email protected]
6
LEC 02.09
:
LEC 02.10
:
LEC 02.11
:
()
LEC 02.14
:
T
-
PHYWE .. http://www.science.com.tw email: [email protected]
7
LEC 02.15
:
LEC 02.16
:
LEC 02.17
:
1 H
LEC 02.18
::::
()
-
PHYWE .. http://www.science.com.tw email: [email protected]
8
LEC 03 LEC 03.01
Clausius-ClapeyronTrouton-Pictet
:
LEC 03.02
Raoults
:
Raoults
LEC 03.04
Raoults
:
/
LEC 03.05
:
/
-
PHYWE .. http://www.science.com.tw email: [email protected]
9
LEC 03.06
Gibb
:
/ /
LEC 03.07
Nernsts Lambert-Beer
:
LEC 03.08
:
LEC 03.09
Henderson-Hasselbalch pKa
:
Ka pKa
-
PHYWE .. http://www.science.com.tw email: [email protected]
10
LEC 03.10
:
LEC 03.11
pKa Henderson-Hasselbalch Lambert-Beer
:
Ka pKa
LEC 03.13
Gibbs
:
Gibbs
LEC 03.14
Avogadro's Gay-Lussac's
:
Gay-Lussac's ,
-
PHYWE .. http://www.science.com.tw email: [email protected]
11
LEC 03.15
Raoults
:
LEC 03.16
:
LEC 03.17
Nernst's
:
LEC 04 LEC 04.01
:
-
PHYWE .. http://www.science.com.tw email: [email protected]
12
LEC 04.02
/
LEC 04.03
LEC 04.04
Wilhelmy
Wilhelmy
LEC 04.06
Helmholtz (Smoluchowski)
:
-
PHYWE .. http://www.science.com.tw email: [email protected]
13
LEC 04.07
:
LEC 04.08
Henry
:
/
LEC 05 LEC 05.01
:
SN1
-
LEC 05.02
Arrhenius
:
-
PHYWE .. http://www.science.com.tw email: [email protected]
14
LEC 05.03
:
LEC 05.07
:
SN2
(Finkelstein ) ,
LEC 05.08
:
LEC 05.09
Michaelis-MentonBodenstein
:
Michaelis-Menton
-
PHYWE .. http://www.science.com.tw email: [email protected]
15
LEC 05.10
:
LEC 06 LEC 06.01
:
95C
LEC 06.02
:
LEC 06.03
:
-
PHYWE .. http://www.science.com.tw email: [email protected]
16
LEC 06.04
Faraday'sHittorf
:
Hittorf
0.1
Hittorf
LEC 06.05
Kohlrauschs Ostwalds
:
20C 60C
LEC 06.06
Kohlrausch's Ostwald's
:
Kohlrausch's Ostwald's
LEC 06.07
:
Cobra3
-
PHYWE .. http://www.science.com.tw email: [email protected]
17
LEC 06.08
:
LEC 06.09 Nernst
: Nernst
-
iron(II) iron(III)
LEC 06.10
:
-
AgCl, AgBr AgI
LEC 06.11
Nernst
:
HCl, NaCl KCl
-
PHYWE .. http://www.science.com.tw email: [email protected]
18
LEC 06.12
Nernst
:
Nernst
Daniell
LEC 06.13
Nernst
:
0.1(II)(II)/ (IV)(II)
LEC 06.14
Nernst
::::
LEC 06.15 pH
pH pH
:
pH
pH
pH
pH
-
PHYWE .. http://www.science.com.tw email: [email protected]
19
LEC 06.16
Henderson-Hasselbalch
:
pH
LEC 06.17 pH ()
Nernst
:
Galvani
(E 338)
LEC 06.18
:
1-
LEC 06.20
:
,
-
-
PHYWE .. http://www.science.com.tw email: [email protected]
20
LEC 06.21 Faradays
Faraday's
:
Faraday's Faraday's
LEC 06.22
:
LEC 07 LEC 07.01
Lambert-Beer
:
-
LEC 07.03
Lambert-Beer
:
- 200 800
-
PHYWE .. http://www.science.com.tw email: [email protected]
21
LEC 07.04 pKa
Jablonski Frster Henderson-Hasselbalch Lambert-Beer
:
HA, Ka pKa pH
pKa* HCl, NaOH pH
pKa pKa*
-
http://www.science.com.tw
e-mail: [email protected]
PHYWE ..
-
LEB 01 LEB 09 LEB 09.01 8 LEB 01.01
1
LEB 09.02 8
LEB 10 LEB 01.02
1
LEB 10.01 8
LEB 01.03 1 LEB 10.02 9
LEB 01.04 1 LEB 10.03 9
LEB 01.05 2 LEB 10.04 9
LEB 01.06 2 LEB 10.05 9
LEB 02 LEB 10.06 pH 10 LEB 02.01 (ECG) 2 LEB 10.07 10 LEB 02.02 (PCG) 2 LEB 10.08 24 10 LEB 02.03 3
LEB 11
LEB 02.04 3 LEB 11.01 10
LEB 03 LEB 11.02 () 11 LEB 03.01 (EMG) 3 LEB 11.03 11 LEB 03.02 3 LEB 11.04 () 11 LEB 04 LEB 11.05 () 11 LEB 04.01 4 LEB 12
LEB 04.02 4 LEB 12.01 12
LEB 04.03 4 LEB 12.02 12
LEB 05 LEB 12.03 12 LEB 05.01 4 LEB 12.04 12
LEB 05.02 5 LEB 12.05 () 13 LEB 06 LEB 12.06 13 LEB 06.01 5
LEB 06.02 5
LEB 06.03 5
LEB 07 LEB 07.01 6
LEB 07.02 6
LEB 07.03 6
LEB 07.04 6
LEB 07.05 (EOG) 7 LEB 07.06 7
LEB 08 LEB 08.01 7
LEB 08.02 7
LEB 08.03 8
-
PHYWE .. http://www.science.com.tw email: [email protected]
1
LEB 01 LEB 01.01
LEB 01.02
LEB 01.03
LEB 01.04
:
-
PHYWE .. http://www.science.com.tw email: [email protected]
2
LEB 01.05
:
LEB 01.06
EPSP
:
LEB 02 LEB 02.01 (ECG)
Einthoven
:
Einthoven P , P-Q, QRS , T
LEB 02.02 (PCG) (PCG) (PCG) (PCG)
:
-
PHYWE .. http://www.science.com.tw email: [email protected]
3
LEB 02.03
:
LEB 02.04
:
LEB 03 LEB 03.01 (EMG)(EMG)(EMG)(EMG)
:
(EMG)
LEB 03.02
Achilles Jendrassik
:
-
PHYWE .. http://www.science.com.tw email: [email protected]
4
LEB 04 LEB 04.01
:
LEB 04.02
:
1.
2.
LEB 04.03
:
LEB 05 LEB 05.01
:
-
PHYWE .. http://www.science.com.tw email: [email protected]
5
LEB 05.02
:
LEB 06 LEB 06.01
//
:
(Lepidium sativum)
LEB 06.02
:
() 45C 10C
LEB 06.03
/ :
-
PHYWE .. http://www.science.com.tw email: [email protected]
6
LEB 07 LEB 07.01
:
LEB 07.02
:
LEB 07.03
/
:
LEB 07.04
:
-
PHYWE .. http://www.science.com.tw email: [email protected]
7
LEB 07.05 (EOG)
:
6
(EOG)(sacchades)
LEB 07.06
:
LEB 08 LEB 08.01
:
49
LEB 08.02
Y
:
Y
-
PHYWE .. http://www.science.com.tw email: [email protected]
8
LEB 08.03
:
LEB 09 LEB 09.01
Q10
:
LEB 09.02
::::
LEB 10 LEB 10.01
:
-
PHYWE .. http://www.science.com.tw email: [email protected]
9
LEB 10.02
:
LEB 10.03
:
LEB 10.04
:
24
LEB 10.05
Eluvation/
:
-
PHYWE .. http://www.science.com.tw email: [email protected]
10
LEB 10.06 pH
pH
:
pH pH
LEB 10.07
:
pH
LEB 10.08 24
pH
:
pH
LEB 11 LEB 11.01
:
-
PHYWE .. http://www.science.com.tw email: [email protected]
11
LEB 11.02 ()
:
LEB 11.03
:
LEB 11.04 ()
pH
:
pH
LEB 11.05 ()
:
-
PHYWE .. http://www.science.com.tw email: [email protected]
12
LEB 12 LEB 12.01
pKs
:
pH
LEB 12.02
H+OH-
::::
H+ OH-
LEB 12.03
--
:
LEB 12.04
:
-
PHYWE .. http://www.science.com.tw email: [email protected]
13
LEB 12.05 ()
:
LEB 12.06
pH
:
pH
-
http://www.science.com.tw
e-mail: [email protected]
PHYWE ..
-
Cobra3:
Cobra3Cobra3A-Z
4 Cobra3
measure
200
200
www.science.com.tw
06-2611369
-
Cobra3
Cobra3 12150.00
PC PC
Cobra3 COM USB USB Cobra3 Cobra3
Cobra3 COM RS232
4
pH
/
( 30V, 10V), 12bit
S1 S2
Cobra3
5V-/0.2
12V- / 2A
Cobra3
Cobra3 COM
D 9 RS232
PC
USB
211
(TTL IN)
( 30 V, 10V, 3 V, 1 V 0.3V 0.1V, 12bit
Cobra3 :
1. : 500.000! 4. 4!
2. 53! 5. 200!
3. 2(2 x/), 4 6. Cobra3 COM
7777:::: 5555 3333
:::: 10 : -D-, 25-
1:1:1:1: 30/10 : 4, -D-, 9- > 500 k
2:2:2:2: 30/10/3/1/0,3/0,1 4 ,-D-, 9- 1 M
:::: 500.000 5 5 500.000 12 230
2222 :::: /1 / 2
32 40 1 4 4
:::: TTL : -/
/ 10 12 -D-, 925
5 /0.2
4
5
:::: RS232 -D-9
115200 /
12000
12 /6
19013590
0.4
-
Cobra3
Cobra3 12153.00
PC PC Cobra3 COM
USB USB Cobra3 Cobra3 Cobra3
COM RS232
8
5 -/0.2
100%
/
6
4
T4
12V-/2A
Cobra3
3
Cobra3 COM
TTL /TTL
-D 9 RS232
PC USB
pH/ 014pH -2200+2200
BNC
T1 T2T33
Nicr-Ni
Cobra3 :
1. ! 4. 50!
2. 108! 5. Cobra3 COM
3. pH/
10101010 3
(3,2 ; 32 ; 81 )
4
pH/pH/pH/pH/:::: 0...14 pH (0,01 pH)
-2200...+2200 (1 ) : 10
12
BNC
:::: 6 () 0 ... 20 S/ 20 ... 200 S/ 0,2... 2 mS/ 2 ... 20 mS/ 20 ... 200 mS/ 200 ...1000 mS/ 4
((((pH/pH/pH/pH/))))
T1, T2, T3: T1, T2, T3: T1, T2, T3: T1, T2, T3: NiCr-Ni- -100C ... +1500 C NiCr-Ni-DIN- K
T4: T4: T4: T4: Pt1000
-100 C ... +850 C ()
T0:T0:T0:T0:
-25 C ... +85 C TTL TTL TTL TTL ////:::: TTL
4 :::: 5 / 0,2 ()
4 :::: RS 232C-D-SUB-9115 200 :::: 12 V
:::: 0.7
-
Cobra3
! 200 CD-ROM 14500.00
PDF
200
200
CD-ROM
(Art.Nr. (Art.Nr. (Art.Nr. (Art.Nr.
14500.00)14500.00)14500.00)14500.00)
01310.0201310.0201310.0201310.02 01320.0201320.0201320.0201320.02 Cobra3
Cobra3
Cobra3 /
Cobra3
-
Phywe
Cobra3 PCPhywe
A.A.A.A. B.B.B.B.
1. 1. 1. 1. 200200200200
Cobra3 P1349400
PDF
2. 2. 2. 2. 2. ::::
!
3.3.3.3.
Phywe
1. X35 09058.99 12. - 07135.00
2. PHYCONUSB 12500.00 13. 07136.00
3. pH 13702.93 14. - Lux 07137.00
4. 13715.93 15. 07138.00
5. 13721.93 16. pH/ 07139.00
6. 4 2 13617.93 17. -
7. 13903.99
2xNiCr-Ni 07140.00
8. 13701.93
9. 13726.99
10. Franck-Hertz 09105.93
11. 11500.10
-
16161616
200200200200
File > Open experiment 200
PDF
.
XY
+-*/, abs, x^y,
e,
ExcelWordPowerpoint
Crtl + Shift
-
: (P1331300)
1. 1. 1. 1. !!!!
Phywe
A.A.A.A. B. B. B. B.
2.2.2.2.
3. 3. 3. 3.
4. 4. 4. 4.
-
e
http//www.science.com.tw
06-2611369
06-2611476
1 4()