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物理学実験A・B

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4. imm b 5mm 5mm 6mm 5 5mm 6 0mm 49 3 3 5 5 0 493 5 993mm X As X As 2 1 2
5. 8 2 0000 1 2 Tronds 3 a b a 0 1 c b 4 5 50cm 10 m 50cm 10 T 50cm 10 Ts 50cm 30
6. PI m n p 18 3 18 2 n n 18 3 18 1 2 000000 n p pn n P n n p p p p n n P
7. Vr 2 Vr AT Seebeck P Q T AT P Q Rit 12 2 x e 12 21 00000 e K x DMM b aa 12 1 12 2 DMM e DMM 1100000000000 2thermoelectric power 66
8. 1000000000000000000
9. 5 S o H Stefan Boltzmann o 5 67 x 10 8 W m K W Stefan Boltzmann 10 1 1000 40 W 100V DMM Ro DMM LO
10. 744 00000000000 1 CH2 2 X Y 3 3 4 11201 3 Lissajous 5 Lissajous 310000000000000000000000000000 49 74 HHHHHHHHHH 1 00100128 252 KSS sil NVA X ES 69 NANM K KIE ri N
11. at 54 n 90 PIECE 2 EE r 0 6745 7 5 6 522 00000 n 2 n par 232 5 7 Gauss 1 z X PAP 202 5 8 z z dz Poisson 5 9 85 36 x103 50 40 Gaussian distribution o 10 X 60 5 2 60 10
12. 10 1 1 2 1 0000000 2 4 1 00000 mm 2 1 1mm 2 1 0 12 0 13 0mm 12 5mm 4 5 12 0 45 12 45mm 22 50 1 0 5mm 0 5 50 0 01mm 10000000000000000000000 1 0mm
13. Figure 4 Figure 5 18 2 Figure 4 90 Figure 5 t 0 V V V V e Figure 2 Figure2 Vi V2 13 2 0000 0000 65 26000 1 2 13 2 1 0000 R 650 30mA 2600 10mA Figure 4 10000650000 5190000 26000000 3000 2202HHHHHHHHHH HHHHHHHHHHHH 200000000000000000000000000000000000000000 HHHHHHHHHHHHHHHHHHHHHHH 13 3 13 2 2 0000000000 1 Figure 4
14. 2 5 9 10 Q V DC AC Func AC DC AC 8 400mA 10 10 Lux x Lux 16 2 33 00000000000 DMM 504A lu 10 0 010 1000 0 109 10M Q AD Analog to Digital DMM DMM 10uV 1000V 10 pA 10A 0 010 10MQ DMM AC Agilent DMM 2 6 DMM LO HI LO I Power on 13 14
15. 1 2 Vo a b Vo 3 a b C d Ij Vo 4 18 4 Vo x Ish FF PV vy R 2 PV cell 18 6
16. 51 0000 1 01 2 4411 i 1 2 150 3 02 4 150 qil i 151 152 300 2 5 403 6 401 402 903 qi 7 i 1 300 qno N 1 2 30 31 32 10 11 12 13 14
17. 30 050 0000
18. 96 xim HSA c 18 1 a b c 3 72474 18 18 2 18 1
19. log x y ax b cexp dz 33 00000 331 error X x e X u 3 1 x 100 96 3 3 2 00000 Cal ibration correction 1 16 3 4 1d
20. 1 1 eV 00000000 5x10 4Hz
21. 12 3 12 3 T1 373 K Vi 273 V 0mV 114 5 C Ts 158 5K 77 K 3 5 4 124 K
22. 81 0 420 mi mgsin 0 8 1 g L 9 1 sin 0 0 20 9 2 dt mgsin9 m mg 8 1 8 4 52
23. 0 050mm qo 8 anol 1 2 30 9 QNO YNO qoo Ta Ta lt qi lt Goo QNO 5 2
24. 0180 00000 000000 18 1 000000000 1811 0000000000
25. 47 48
26. X N N 2 doin 2 3 2 N Sm Sm N mo 8 _ 24 4 3 N 1 Sm LX Sm 3 3 35 35 1 HHHHHHUHHH 1 2 450 2 445 lt I lt 2 454 A 0 0025 2 5 1073 3 5
27. 10000000000000000000 18 32 1 000000
28. HHHHHHHHHHHHHH oOo E oo oo Oo 12 2 r BER uus 1 1 En P Ec El ITA Funcion kaspa 5 From Rear Terminal Bench 1 Neth kaya 8 Range Number of Ooits Displuyed keys 1 Be 7 Dpemfon keys Stem Local kiy EN xj O 12 2 0000000000000000 67 68
29. 3 a b 4 5 ab a 4 b b a 14 1 14 2 6 0 1433 HHHHHHHHHHHH f 14 3 then 14 3 14 4 1 14 1
30. 18 2 HHHHH Lu lux 99 100 183 000000000 18
31. 10 2 4 3 50 4 V VV B 5 23 0000060 231 0000000 UDO 1000 1 5V IU http www kikusui co jp
32. 64 0120 000000
33. 4 6 1 660nm 532nm 2 4 6 2 0000000 280nm DNA X 47 0000000000 4 8 4 8
34. 7 2 MODE AUTO SOURCE VERT VERT MODE CH2 INVERT OFF SLOPE TRIGGER LEVEL CH1 or Y CH2 or Y POSITION VARIABLE CAL VOLTS DIV 5V DIV AC GND DC GND HORIZONTAL POSITION VARIABLE CAL SWEEP TIME DIV 0 2ms DIV x10MAG OFF 73 000000000000000000 1mHz 20MHz FREQ RANGE 6 FREQ RANGE Hz
35. 242 e 50kQ 1MQ 2 43 3 6 1 HB A B C D E 1 A E 2 A E 3 A E 15 24 000 1000000 FUNCTION puc A E DC 1 0 4W Perlad aaa ss 916 fe gr eee Fr enter ern Forlod Enn 48 Ee RF Miet 1 m MU can 4 Asto Hold SO 23 827 sz Raar A Panal LEVEL ENTER J TRIG 9 0 RANGE DIGITS Ga 58 EH EH CHOICES x 5 1 Measurement Function keys 5 Front Rear Input Terminal Switch 2 Math Operation keys 6 Range Number of Digits Displayed keys 3 Single Trigger Autotrigger Reading Hold key 7 Menu Operation keys 4 Shift Local key
36. 12 1 K V 80 90 370 12 2 C 0 10 20 30 40 50 60 70 80 90 100 200 5891 6035 6158 6262 6344 6404 6441 6458 100 3554 3852 413 8 4411 4669 4913 5141 5354 5550 5730 5891 0 0 392 778 1156 1527 1889 2243 2587 2920 3243 3554 C 0 10 20 30 40 50 60 70 80 90 100 0 0 397 798 1203 1612 2023 2436 2851 3267 3682 4096 100 4096 4509 4920 5328 5735 6138 6540 6941 7340 7739 8138 200 8138 8539 8940 9343 9747 10153 10561 10971 11382 11795 12209 300 12209 12624 13040 13457 13874 14293 14713 15133 15554 15975 16397 400 16397 16820 17243 17667 18091 18516 18941 19366 19792 20218 20644 500 20644 21071 21497 21924 22350 22776 23203 23629 24055 24480 24905 600 24905 25330 25755 26179 26602 27025 27447 27869 28289 28710 29129 700 29129 29548 29965 30382 30798 31213 31628 32041 32453 32865 33275 800 33275 33685 34093 34501 34908 35313 35718 36121 36524 36925 37326 900 373
37. TRIG 3 Na 2 4 4 Na Zn z 0 w 2 6 8 10 7 12 v x 104 Hz w 1 1 u uu 8 lu 00000
38. 45 3 37 C 28 4 6
39. 91 92 16 16 1 C mmHg mmHg 0 4 58 20 17 54 1 4 92 21 18 65 2 5 29 22 19 83 3 5 68 23 21 07 4 6 06 24 22 38 5 6 54 25 23 76 6 7 01 26 25 21 T 7 51 27 26 74 8 8 04 28 38 05 9 8 61 29 30 04 10 9 21 30 31 82 11 9 83 31 33 70 12 10 52 32 35 66 13 11 23 33 37 75 14 11 99 34 39 90 15 12 79 35 42 18 16 13 63 36 44 56 17 14 53 37 47 07 18 15 48 38 49 69 19 16 48 39 52 44 2 f 1000 Hz 2000 Hz 0170 HHHHHHHHHHL
40. 3 33 n fai z 2 i 2 1 fn amp i mi lt T lt Ti lt z lt ag 33 34 XB 5 1 5 2 1 00000 1 2 n n 2 2 5 1 i X Ti 5 2 M U z 2 2 gt u 226 5 3 5 2
41. 1 2 1 3 14 0000 1 4
42. dt dt S9000000000000000000000000 dV I C Beri 73 74 0000000 13 1 1 2 3 0 1 1 101 1 2 10 2 3 103 0 05 4 104 5 105 0 5 6 106 0 25 7 107 0 1 8 103 9 10 10 2 10 1071 5 123 4 13 3 13 4 000000600 13 4 00000000
43. 000000 4 2 29
44. 4 2 4 5 15 30 4 2 0000 L 150 2 41 3 4 43 000000000 25 26 4 4 1
45. 1 1 1 ET Ru tert GE IC 1 1 22 Pusse ar A S ND S TE de is 2 EJ 2 545 EHL 552 52068 S Mee SE ss s 2 2 5 2 ER a a 5 211 5624 8804 ap Rege qulu a 5 2 22 SERRE se ae 8 7 tuf SS 9 2 2 Fortin b 2 9 2 33 KA E Mo dl osten 10 7 e s e batas Q 10 2 32 EFE es ee REDE ER 11 2 3 3 DMM 13 2 4 EE ECE ES EEE sa sert dre aat t dn 14 241 BEBE Ip m H 14 eme een aaa ee 14 2 45 31 MA Bee VERS 14 3 17 SUE a k a SE Gled ale d bed 17 3 2 TEED a 17 324 MANNEN ear Aad ae ta 18 ete Xe Su Fa ER AL SETER 18 831 LET A wt 18 a PESE S 225 gt s eg sed S re dudo de es 18 2 2 00 t p eee ee G Uk s 19 adt INTIM ue 19 342 aa EEES 19 3 5 3 6 3 5 1 3 5 2 3
46. 121 12 1 1 C AH C Kelvin K og K 273 160 0 01 C T gt Ta nO 0n Ti 72 T T TU 1 273 151 K 12 12 000
47. 34 HHHHHHHHH 341 JO 00 3 4 2 00000000 21 2 Gauss _ exp a 2 20 WIL _ Tit HIN N 20
48. 90 16 1 16 2 0000 1000 Hz 2000 Hz 2000Hz 16 1 AB 3 cm 80 cm F 1 D AB Ny No Ns Na Yi 72 Y4 2 16 4 16 5 3 PO p mmHg elmmHg 0 C Vo 16 6 16 6 cm s 16 2 Y Ya Y2 Az 16 4 Ay 2 V 16 5 Vo V 1 0 001838 1 16 6 16 p 16 2 X X r 0 55 0 8 X J 667 Hz 3 X 1000Hz 4 X
49. Ar He No http www magfine co jp magnetjapan user_data magnet_att php 44 HHUHHHHHHHHHHHHHHHL
50. 7 mA PC 8 10A 10A 9 V Q Hz 11 12 10 11 Hz Duty 12 13 14 15 16 17 2 5 aqua ERE 7 8 2 3
51. 14 1 14 7 14 1 3 0000000 14 7 F F 1 2 14 8 3 14 9 A arv B B 14 10 a 14 1 b lt 0 m 14 2 81 82 0 148 0000000 14 9 100000000000 0 0000 14 00000000 00000000 F n 14 10 f lt x A b lt lt gt 14 11 14 1 4 14 1 14 2 b gt 0 7 R D f R 2 14 10 14 11 14 2 10000
52. 17 1 0000 1711 0000000000000000000000000 17 1 2 0000000000000000000000 94 17
53. 97 98 180 00000000000 p n OO 000000000000000000000000 2000000 18 4 100000001 000000000 1 1 0000000000000000000000 S gt 2 Voc 18 5 1813 0000000 0 1W cm
54. f CRT fs n f nf O n CRT CRT 0 5mm V CRT 10cm 200V 72 0000000000 7 1 CS 4125A lem 1division 1 CRT 8div 80mm 10div 100mm 2 3 2 4 CAL 14 40 1kHz 5 INTEN 71Vp p 000000000000 1HHHHHHHHHHHHHH 41 72 0000000000 es 09 EDG 7 1 0000000000000 42 10 11 12 13 GND 14 15 16 17 18 19 20 21 22 CH1 CH1 FOCUS TRACE ROTA ILLUMI CRT CS 4125A GND POSITION CRT CH1 X Y VOLT DIV CHI 1 2 5 VARIABLE CAL X Y
55. 1 10 100Hz x10 100Hz 1 kHz 45 46 70 00000000000 KENWOOD AG 203D a f _ tll FREQUENCY AMPLITUDE 7 3 00000000000000 0000 01 100 1 kHz 10 kHz xlk 10 kHz 100 kHz x10k 100 kHz I MHz 7 WAVE FORM 8 OUTPUT 9 ATTENUATOR dB 100 10 AMPLITUDE 7 4 T A 0000000000 741 00000000
56. _ V po y 0 001293 7 t pmmHg e mmHg V V Vo 1 0 00183t 1 331 4 107 1 0 001834 1 cm s 16 2 stationary wave 16 1 node 2 loop A 2cm vs 16 3 16 3 V 16 3 89 16
57. 10 2 Stefan Boltzmann R Ro T K T4 Pg T 10 1 T Ste fan Boltzmann W m K 4 Stefan Boltzmann 5 67 x 1078 10 1 0000 61 10 1 000000 500 1000 1500 2000 2500 3000 Temperature K Fig 1 Relative resistivity of W versus temperature K 102 000000000000000 62 10 10 2 1 P T 2 Stefan Boltzmann
58. 1412 HHHHHHH 78 14 1 14 2 79 14 3
59. 37 38 6 3 1 2 3 z y 4 5 6 Vn 1 VNL VNI l 1cm 070 71 0000000000000
60. DMM 12 2 2 JOOO0000000000 12 2
61. 102 0000 0000000 103
62. 0160 00000 16 1 0 C Vo 1 403 x 1 013 x 106 331 4 x 10 cm s 16 1
63. Stefan Boltzmann 63 0110 000000 James Prescott Joul 000 111 J WU J cal W H J cal 11 1 I IV At AW AW IVAt 11 2
64. 2 14 3 P 85 86 0150 DULL 15 1 000000 400 nm 800 nm diffraction Huygens diffraction grating ay gt Q 2 E gt al
65. A A 1 2 3 4 3MRI Magnetic Resonance Imaging 0 0 0 0 0 Nuclear Magnetic Resonance 0 0000000000000000 0 0000000000000 0000 000 O0000000000000000 MRIHHHHHHHHHHHHHH 4 5 45 HHHHHHHHHHHHHHH 451 HHHHHHH 1 77 3K 196C 2 700 0 7m 3 90 1K 4 45 2 000000000000000
66. y 017 4 Maj Dat gt Gy 2 aU A n Diti Dt Dash Dia T TR Mc Mw 1 A Mi Dit 77 zi Age Die Dia ati 2 A ue Pi A Ti 2 m 36 3 6 1 HHHHHH 221 a 3 13 2 4 3 23 24 040 000000
67. SOURCE EXT 30 POSITION CRT Y X 31 SWEEP TIME DIV 0 2us div 0 5s div 1 2 5 VARIABLE CAL 32 VARIABLE SWEEP TIME DIV CAL 33 x10MAG CRT 10 7 2 PC 54 1 1 1 10 7 3
68. 2 2V 13 23 0000000 1 Figure 5 13 3 000000000
69. 9 2 9 1 1 9 1 2 9 1 3 9 2 1 9 2 2 9 2 3 9 2 4 9 2 5 10 10 1 10 2 11 11 1 12 12 1 12 3 12 4 12 1 1 12 1 2 12 2 2 12 2 1 13 13 1 13 2 13 3 13 4 13 2 1 13 2 2 13 2 3 14 14 1 14 2 14 3 14 4 14 1 1 14 1 2 14 1 3 14 1 4
70. 88 3 1 1 1 15 3 4 1 1000mm 4 15 3 AG 5 15 3
71. OUTPUT 60 OUTPUT 10 DMM LO HI 10V T4 P VxI e R V I
72. 1 CAL 31 11 742 0 000000000000000000000 1 BNC 2 3 7 43 20Hz 20 000Hz CRT CHl
73. CRT N CD CRT CRT spot 100000000000000000 CRT Cathode Ray Tube 0000 40
74. 14 3 1 14 3 2 14 3 3 15 15 1 15 2 16 16 1 16 2 16 3 17 17 1 17 1 1 17 1 2 18 18 1 18 1 1 70 70 72 72 73 73 73 75 77 77 77 77 81 83 83 84 84 84 84 85 86 86 87 87 88 89 89 90 91 93 93 93 93 Vi 18 2 18 3 18 4 18 1 2 18 1 3 PEN ELE LEV se 0000000000 11 000000000
75. 7 100 2 1 0 0 18mm 13mm 128m m 1 0 05mm 0 45mm 18mm 0 45mm 18 45mm 0 2 4 8 10 1912 45mm 2 1
76. LED 91 911 000000 R Q V I A V I 9 1 I 9 1 2 0000 0 2 Vo A B Vi BC V R Ra mam 9 2 9 2 9 3 R 9 1 R 10000000000000000 9 2 thermistor b A R Vi Vo R V2 C 9 2 91 3 LDR Light Dependent Resistance LDR CdS Vo R 92 0000 9 3 9 2 1 DOOD 1 9 4 a Vo 8 V 2 A B BC CD Vopl DE
77. 1 y az bl a b 2 ax 3 y aexp bz 4 z cos 22 bi sin z by sin 22 21 zi Yi 1 gis n y ax b az b 3 7 da 9 0 ay b m 0 3 8 i 1 i 1 i 1 95 08 0 bn aM bY w 0 3 9 i 1 i 1 0 3 80 3 9 DE 1 a x 3 10 Mui Dot 11 b x 3 11 n 2 n T gt Ti 3 12 aziz m i 1 Yi 3 6
78. VARIABLE CH1 AC GND DC CH1 VOLTS DIV X Y Y AC DC CH1 INPUT CH1 X Y BAL 1 DC POSITION VOLTS DIV CH2 VARIABLE CH2 AC GND DC CH2 X Y X CH2 INPUT CH2 X Y BAL CH2 DC VERT MODE CRT
79. 7 2 CH2 CH2 CRT ALT CHI CH2 CRT CHOP CHI CH2 ADD CH1 CH2 CH2 23 CH2 INVERT NVERT 250kHz CH1 CH2 CHI CH2 CRT CH2 24 Y CH2 X X Y 25 MODE AUTO NORM FIX TRIGGER LEVEL TV F TV L 26 SOURCE VERT VERT M
80. 74 0000000000 56 5 50 745 1 Acos 27 fit 1 7 1 Bsin 27 fat 21 0 2 3 080 0000000 51
81. 0 00000000000 230 20 100 0000 http www wakayama u ac jp kisoda jn indexj html
82. m 14 4 14 3 14 1 14 1 1 2 3 14 2 14 1 b lt 0 14 2 14
83. cm 84 14 143 0000 14 3 1 000000000000 14 3 2 HHHHHHHHHHHHH
84. DC V DC Direct Current AC Alternative Current Q 2W DC I ACI 2 4W Period Shift 24 O000000000000 241 000000000000
85. HHHUHHHHHHHHHUHHHHUHUHHHHHUHHHUHHHHHHH 0 00000000000000000000000000000000 0 0 00000000000000000000 10001011 13 4 I 5 0000 b 134 0000000 0000 000 000 0000 00000 HHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHH O0O0O0O000000000000000000000000000000 HHHHHHHHHINHHHHHHHHHHHHHHHHHHHHHHH HHHHHH VHHHHHHHHHHHHHHHHHHHHHHHHHHH 76 13 0140 OOO00000000 00000 14 1 0000000 1411 000000
86. 060 HHHHHHHHHHHL 6 1 62 0000 1 A B 2 1 lem 1 fem 1 4 1 5 6 1 50 3 50 A B A B 4 5 0 1 2 6 y 0 1 2
87. j d sin i sin 0 2 3 15 1 0 15 1 d sin i sin 0 2m D 15 2 100000000 15 2 screen 15 2 HHHHHHHHHHHHHHHHHUHHH 0000 15 21 0000
88. 41 0 000000 00000000000000000
89. 00000 1mg 1 2 3 2 4 5 6 2000000000000000000000 8 020 00000000000000000 0 2 2 0000000000 2 2 Fortin 2 3 Fortin 213 00000 2 2 HHHHH Fortin Fortin Torricelli 2 3 a b mmHg
90. 2 3 5 X x 100172 6008 eX X 1 3 5 R 1 Em i R LEERE 3 6 3 5 3 3 5 4 00000000
91. VDE 55 56 9 3 9 4 b Vo 8 V 4 A B BC CD Vopl DE VDE 9 2 2 0000000 000 1 2 9 2 3 0000000000 9 5 A B C D E 924 00000 V a A re
92. knowledgeplaza d powersupply1 2 3 100V 2 3 2 00000000000 2 5
93. oof V V1 e Vi V V 1 13 6 13 6 Figure 2 Figure 3 R 5 Figure 1 1 a E gt 3 gt Figure 2 R C S Figure 3 13 1 Figure 1 Figure 2 Figure 3 72 13
94. 1000 e 2002 e13000 le 4000 1 5 10 58 D1 ooooo ooooo ooooo ooooo D2zooooo ooooo ooooo ooooo 090 0000000000 000000000000000 59 0100 1100 000001 0 Stefan Boltzmann
95. 2 06 DMM 16 030 00000000 31 00000 1 3 2
96. 26 37725 38124 38522 38918 39314 39708 40101 40494 40885 41276 69 70 0130 HHHHHHHHHH 13 1 TL Q Vo 2 Q 13 1 5 13 1 Vi V Q CV 13 2 V V dQ 13 S 13 3 dV V V 13 4 dt CR 13 4 dV VW dt CR d V y 1 dt 13 5 V V CR Vil n 1 CR V V e e en t 0 V 0 t
97. 5 3 3 5 4 3 5 5 4 1 4 2 4 3 4 4 4 5 4 6 4 7 4 8 4 5 1 4 5 2 4 5 3 4 6 1 4 6 2 5 1 5 2 5 2 1 5 2 2 6 1 6 2 6 3 7 1 7 2 7 3 7 4 7 4 1 20 20 20 21 21 22 23 23 24 24 25 25 26 27 27 27 27 28 28 28 28 29 31 31 33 34 35 37 37 37 38 iii 7 4 2 7 4 3 7 4 4 7 4 5 8 1 8 2 8 3
98. 80 14 5
99. ODE VERT MODE 7 1 CH2 2 LINE EXT EXT TRIG 27 SLOPE 28 TRIGGER 43 44 7 1 VERT MODE VERT MODE CH1 CH1 CH2 CH2 ALT CH1 CH2 CHOP CH1 ADD CHI gt REH 7 2 29 EXT TRIG
100. Ta 50cm 60 Ts 30cm 10 Te 15cm 10 T 83 00 sin 0 0 1 1 2 pila 8 5 4 2 8 3 53 54 090 00000000004 0 000 000000000

物理学実験A・B

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