課 題 研 究 集 録 - 岩手県県立学校一覧岩手県県立学校一覧
Contents
1. 2 52. 7 Panasonic MC 330EP T Handy Recorder ZOOM H2n 44 1 kHz 16 bit Z SoundEngine Free UE KIZ
3. Ek 20 C it 6 WE 7 1 Borthwick H A S B Hendricks M W Parker E H Toole and V K Toole 1952 A reversible photoreaction controlling seed germination Proc Nat Acad Sci U S 38 6 662 666 2 Flint H L 1935 The action of radiation of specific wave lengths in reaction to the germination of light sensitive lettuce seed Smithsonian Inst Misc Collections 94 5 1 4 GREF Y W
4. 2009 MAL ARE CHE 1 3 93 3 5 DNS
5. 2 3 Case 1 gt 1 n n 2 n 1 n n 2 1 n n 2 Case 2 gt 1 n n k 1 n 1 n n k 1 k n n k 1 Case 3 n 4 5 n 4 3 n5 12 1 2 1 n n 1 n
6. TOLER Lies CLIVE COMB CILIA Oi yc fe 7 fi ic US 7 CAO cH 2 T pem Oxalic acid Q Na SO Sodium sulfite C H 0 Ascorbic acid FeS0 7HzO Iron II sulfate heptahydrate COOH 2H 0 CsHi Os Glucouse
7. 3 The door can be opened The initial distribution c i A B C Thedooropened comet A B jc LA L us hi B e hi B B C 1 3 C 2 3 The case of 4 doors 1The player chose door A and the host opened the door B The case of 5 doors 1The player chose door A and the host opened the door B s o sw as 2 1 The player chose door A again and the host opened the door C 2 2 The player chose door C and the host opened the door A 2 3 The player chose door C and the host opened the door D 2 1 The player chose door A again and the host opened the door C 371 The player chose door A again and again and the host opened the door D 3 2 The player chose door D and the host opened the door A 3 3 The
8. 0 868Hz 3 8 3 CENTER ANGLE 20cm 90 0 90 180 30 30 90 180 30 30 0 88 0 88 0 88 30 30 0 88 0 88 0 88 degree Hzl Hz Hz 01 30 02 30 20cm 25cm 30cm 61 90 02 0 01 90 02 180 6 1 30 02 30 0 88 0 92 0 91 0 91 0 92 0 91 0 91 99 k 85 0 90 0 90 0 90 0 90 0 90 0 90 0 90 0 90 0 9 0 88 1 1 x 0 88 0 88 4 8 41
9. 2 2 10mm 45cm Fig 1 Fig 1 large acrylic double pendulum 18 Js 2 1 2 0 2 1 6 1 Fig 2 Fig 2 An angle against vertical line of pendulum is 6 1 An angle against vertical line of pendulum is 62 2 3 Wii
10. 190 Hz 500 Hz 10400 Hz 16
11. 4 DNS DNS DNS 3 1 1 Tablel t 5 SD Standard Deviation 2 Figurel
12. 2 DNS DNS CM2 1 DNS 26 5 1 A
13. ds REAME 2012 P 424 2004 124 1D 715 718 ZOOM H2n http www zoom co jp download J H2n pdf Wensn DS HWECJ02 http www onosokki co jp HP WK c_support newreport noise souon_2 htm m 3 ANALYSIS OF DOUBLE PENDLUM S MOVEMENT Hiroki WAKAYANAGI Hokuto SASAKI Tomoki TAKAHASHI ABSTRACT We got interested in double pendulum which is consisted by two single pendulums The purpose of our research is to discover the periodicity of double pendulum s movement We researched the movement of double pendulum in terms of frequency of each location s sensor If each angle of two single pendulums against vertical line is the same we can get the same frequency at each sensor s position many times in experiment So a double pendulum
14. 13 Station 1 Side 190 Hz 500 Hz 1050 Hz OOoO OOoOO 3700 Hz 8500 Hz 10400 Hz XXXX XXOX Fig 3 The change of the power spectral density before and after the sound of a cleaner was played The power spectral density decreased after the anti phase sound was played at each observation station denoted by circles in the figure and it increased at the point denoted by crosses rounded off the first decimal place Station 12 On 190 Hz 500 Hz 1050 Hz x oo oo x x x o9 Co 5 Oo 0 x Oo x O Q Q9 x X X x X X Qo O xo x x x x 3700 Hz 8500 Hz 10400 Hz 4 Xo x x x o Xo x x X X x x x oo x x x X x x x Fig 5 As seen Fig 3 except for the speaker in the station 12 WELT 3 Station 10 Front 190 Hz 500 Hz 1050 Hz x o oo Bl loo ooo o o o oox ooo ooo xoo ooo oo o x o o 3700 Hz 8500 Hz 10400 Hz xo Ol x x x o x x9
15. DNS ABSTRACT It is known that stresses affect salivary amylase activity SAMY We observed a change of sAMY when such lords as skipping rope putting hands into icy water and having test were taken to people As a result sAMY rose by skipping rope and putting hands into icy water which showed the subjects had felt stress Moreover we succeeded in measuring values of sAMY by the determination of reducing sugars by 3 5 dinitrosalicylic acid DNS method Key words salivary amylase activity continuous physical stress dinitrosalicylic acid Wiz Ch
16. B Fig 1 a The point at which the sound of a cleaner is played denoted by asterisks and the point at which the sound of anti phase sound is played denoted by squares b The point at which the sound of recorder is played denoted by circles 14 Fig 1 a 12 WA Fig 1 b 2 2 6 190 500 1050 3700 8500 10400 Hz Fig 2
17. 40 80 1000020 C33 025 C 30 C Tux x 20 20 CHEU 30 C 25 C 20 C 30 C 85 ESR SIE 2 Tv 5
18. SVY Wikipedia RoE http ja wikipedia org wiki Bll ds Ur SE ZUAIO EI UC 3 The effect of reducers in batteries Yuya KANNO Mitsuki ABE Kotaro KIKUCHI Kumi ABE Natsuka ITO and Sakiho YAMADA ABSTRACT We appreciated the value of batteries and become interested in it after we went through the big earthquake So we began to researched batteries used something around us We hypothesized that a rise of electric power is proportional to a rise of reducer s reducing power And then we measured reducing power of seven reducers Then we also measured the electric power of Daniel type batteries to examine the relation between electric power and reducing power As a result of it ascorbic acid has the strongest reducing power and electric power Therefore we found that the the electric power tends to be proportional to reducing power Key words reducing power ascorbic acid 1 2011
19. t 5 3 100 li A2 oe 80 B2 60 Poo E 3 20 s 0 B 20 E 5 40 Before Q 6 taking load XA B and C represent subjects Figurel The changes in sAMY under continuous physical stress The number of times the subjects jumped is indicated 3 2 A B C 4 B1 t 5 ram m Before taking load After taking load Amylase activity kU L A1 B1 C1 A2 B2 C2 A3 B3 C3 A4B Figure2 The changes in sAMY under strong physical stress XA B and C represent subjects 2 DNSIZ amp SUR 33 EEEN Figure 3 1 0
20. Fig 1 the spiral of Ulam EF Fig 2 Fig 2 E odd numbers bs even numbers 1 45 Hig 3 1 135 Fig 4 FRO
21. 2008 2010 9 cm XS 1 5 cm 0 8 1 20 5 20 C 25 C 30 C Hat 3 1 HH 4 LED 660 nm 503 nm 475 nm LED Fig 1 CBR B amp W TEK 100 molm s 20 40 80 100 molm s HD 2302 0 Lc 3000 Ix 9 33 3 umolm s Excel Ver 6 PR 34
22. 2 I 0 10molL 50mL metal tree copper tree ionization tendency tetrachlorozincate ion 1 0mol L 1 0mol L 5mL 5mm LE 4 5mL Figure 1 Apparatus for our experiment Surface area mm DH O 97 85 HCl OR NH Table1 The results of the formation of metal tree H S0 HCI Figure 2 The formation of metal tree I9 NH H 0 NH OH
23. with Wii Fig 3 1 2 Wi 40 16 HEL 3 10 CSV vba ao inii X txt2wav gt wav is WAV adobe audition cs6 mde x r4 gie e Fig 3 Wii remote and Infrared LED 2 44 1
24. 20cm 25cm 30cm 1 po 3 3 1 1 91 90 02 0 1 2 1 2 seco nemo roumm SENSOR1 1 20Hz 1 20Hz 1 26Hz 1 26Hz SENSOR2 2 1 0 94Hz 0 94Hz 1 26Hz 1 26Hz 1 2 1 2 5 sgnsoRilsesoRz 21 91 90 02 0 1 23Hz o95Hz 1 25Hz 61 90 62 180 o 9Hz 0 89Hz 0 85Hz 61 30 62 30 0 89Hz 0 89Hz 0 89Hz 3 2 2 0 86 0 01Hz
25. 3 1 1 1 Fig 1 CH 5 6 7 14 5 5 6 11 13 5 Fig 12 2 4 2 ER 6 80 2 3 Fig 2 3 3 3 1 11 1
26. 4 4 2 ER Fig 4 30 80 7 8 11 90 10 12 16 Fig 18 Fig 5 7 2 2 4 1 1 2 Fig 1 1 100 Fig 2 Fig 3 44 1 2 Fig 3 6 7 16
27. 6 Step 2 http physicsdemo org mod page view php id 9 O 1 http taizo3 net hietaro 2010 09 20100916 php O http ir 1ib shizuoka ac jp bitstream 10297 3136 1 090304002 pdf 22 3 FREE The Relations between Salivary Amylase Activity and Stress Kyohei TIBA Yuka SAYAMA Miki WATANABE B f 3 5 DNS
28. 1 5 2011 http www ho yu ed jp hoyublog science 2011 11 08 2010 sosu exe http kiyopon sakura ne jp soft sosu htm 11 3 How to Mute the Sound of Vacuum Eraser Cleaners Ryo KIKUCHI Kentaro OZAWA Masahiro OZAWA Takuya TSUDA ABSTRACT We searched necessary conditions to mute the sound of vacuum eraser cleaners We found amplitude of sound is canceled by playing its anti phase sound and we decided to mute the sound by using this sound property When the anti phase sound was played the noise level in the room decreased significantly This is because the noise level of monotones of 190 Hz and 500 Hz decreased significantly and the level of 10 400 Hz decreased significantly by the shielding effect which the noise level decreas
29. 0 88Hz 1 1 43 3 3 2 1 1 2 1 1 1 1 91 90 02 180 2 1
30. TT L IL mk LC Zn 20H Zn OH 2 5 3 RBI I 1 0molL 1 0molL Hi 1 0molL 1 0molL IZo Surface area mm HCI Q NaCl KCl 343 Table2 The results of the formation of the metal trees NaCl KCl Figure3 The formation of metal tree I I
31. 420 1 C 2002 http jaguar eng shizuoka ac jp lecture cha p node37 html
32. 1 2 2 1 Excel 2 2 10 145 174 9T 65 WL an a an bn 4 12 20 28 30 ERU 4 8 b 4
33. 115 DY Rae LED 1 1 c bud SOS 5 01 90 02 0 01 90 02 180 61 30 02 30 1 1 2 2 3 1 2 1 1 1 2 27cm 1 2 6 3 1 1
34. 3 Sl 0 SlIS2 FELISO dy 2 3 3 3 3 2 4 100 2 5 3 1 40 Fig 5 Fig 5 Progressions on the spiral of Ulam 3 table 1 4 0 1 2 3 am peser Meet lipo ah 4n 2202239 imultiples of
35. y 0 0754x absorbance Abs 5 8 6 5 99 10 w 30 40 so 4 amp 0 70 30 so mo no no no The concentration of maltose mg 5 00mL Figure3 The content mg 5 00mL the measurement solution of the maltose and value of absorbance the concentration of maltose is in the measurement solution DNS Figure 4 DNS 15 17 y 0 107x 2 12 R 0 895 s Y se i so t i4 m E 15 oe LJ LJ Amylase activit kU L Figure4 The comparison of the value by measuring on DNS method and that of monitor of amylase the concentration of maltose was measured by DNS method the concentration is in the measurement solution 4
36. 2 43 1 1 2 1 2 1 2 1 MOF 1 2 1 1 1 2
37. 2 0mo1 L Table 1 The comparison of measured value during the examination and that of the 0 50mL school day 0 50mL DN S faic na CHAE L During the examination The school day 5 DNS mune semen wenns lernen o Sues om T sa TA D pom Subject arte i je ue iro ees 3 N 2 ia p 540nm SuetC avarage 473 295 375 235 1696 SD 150 67 90 52 p 009 zd Subject varage 210 185 168 213 t 0865 3 SD 4 104 63 72 p 036 DNS 10 0 9 1 0 10 EC 3 DNS 540nm
38. 34 43 10 31 24 43 25 26 1I TI 3 The change of the probability on Monty Hall Problem Yoshinobu KONNO Shu SASAKI Takahiro CHIDA Hiroto HIRAMA ABSTRACT The Monty Hall Problem is a problem of a conditional probability by using Bayes theorem We got interested in it and wanted to solve it by ourselves We added the conditions of increasing the number of doors changing a choice opening a door and increasing the number of trials As a result we consider that the causes are the probabi
39. 3 25 29 3 Murashige T and Skoog F 1962 A revised medium for rapid growth and bloassays with tobacco tissue cultures Physiolgia Plantarum 15 473 497 4 1994 11 1 76 77 45 Table 1 Medium for Murashige and Skoog 1962 Component Chemicals Amount L Amount L MS1 NH4NO 82 5g KNO3 95 0g MgSO4 7H20 18 5g 1000ml 20ml MS2 CaClz 22 0g 500ml 10ml MS3 KH2PO4 8 5g 500ml 10ml MS4 Na2bEDTA 3 73g FeSO4 7H20 2 78g 1000ml 10ml MS5 H3BO3 620mg MnSO4 4HzO 2 230mg ZnSO4 7H20 860mg Kl 83mg NaMoO 2HzO 25mg CuSO4 5HzO 2 5mg CoClz 6H20 2 5mg 1000ml 10ml MS6 myo inositol 5g glycine 100mg nicotinic acid 25mg pyridoxic acid 25mg thiamine acid 5mg 500ml 10ml Table 2 Effect of growth regulators on callus induction from leaf explant of Eustoma 2 4 D 0 05 1 0 20 mg l mg l 1 2 3 4 B 5 6 7 8 A 9 10 11 12 13 14 15 16 1 2 4 dichlorophenoxyacetic acid 2 Benzyladenine Five of petri dish per One test section 50 leaf explant Table 3 Effect of cytokinin on shoot induction from leaf derived callus of Eustoma BA 0 0 5 1 0 2 0 mg l 1 2 3 4 1 Benzyladenine Twe of petri dish per One test section 20 callus 46 g t amp 3 4 Died 7 829 10 TE
40. am FN 20 fh 120 BK 140 PEP een 51 2 3mm 3mm 75mm BE 3 D 827 4W m t 0 08s Cot BRKO 442Xx107m S 6 25X10 g m C 1 179 g K
41. 2 4 D BA 5 Ez 6 1 1988 Shoot H 2 172 173 2 2006
42. 2 2 Fig 2 30mL 0 10mo1 L KMn0 salt bridge reducer KMnO Fig 2 Daniel type battery 1000 voltage mV KMnO4 mL Fig 3 A consumption of a solution of 0 10mol L KMnO 32 voltage V 0 04 0 06 0 12 0 08 0 1 reducer concentration mol L Fig 4 Concentration of each reducers and electric power of Daniel type battery 3 3 1 2 1 fig 3 WES 3 2 2
43. 5 Case 4 6 PRA 2013 320 2010 PHP 252 2010 Excel 232 DOFI 2006 http ishi blog2 fc2 com blog entry 182 html 3 About the Regularity of the prime Numbers on the spiral Ayumu Saito Ryo Murakami Naoka Terui Mirei Watanabe ABSTRACT The spiral of Ulam is the spiral on which natural numbers are placed in a spiral and only prime
44. Fig 1 a 1 10 12 Figs 3 5 3700 Hz 8500 Hz 10400 Hz iX Power Spectral Density Frequency Hz Fig 2 The power spectral density of the sound of a cleaner which was recorded near the cleaner Circles show the main components of the sound of a cleaner 190 Hz 500 Hz Fig 3 190 Hz 500 Hz 1050 Hz Fig 4 190 Hz
45. 2008 LED 7 1 182 MAE 2010 LED 9 1 178 5 2003 34 51 58 SR Table 1 Effect of Light quality and Temperature of Leaf Lettuce Light quality 1 2 3 average SD SE Red 100 78 87 91 85 33 6 66 3 84 Bluish green 100 89 85 70 81 33 10 02 5 78 20 C Blue 100 34 38 33 35 00 2 65 1 53 White light 33 72 70 71 71 00 1 00 0 58 Dark 41 53 34 42 67 9 61 5 55 g Red 100 87 66 80 77 67 10 69 6 17 Bluish green 100 88 65 66 73 00 13 00 7 51 8 25C Blue 100 13 13 39 21 67 15 01 8 67 White light 33 79 70 68 72 33 5 86 3 38 m Dark 27 32 24 27 67 4 04 2 33 Red 100 69 69 73 70 33 2 31 1 33 Bluish green 100 89 66 75 76 67 11 59 6 69 30 C Blue 100 60 72 69 67 00 6 24 3 61 White light 33 18 18 13 16 33 2 89 1 67 Dark 0 0 0 0 00 0 00 0 00 1 Photon flux density 2 Standard deviation 3 Standard error 37 Table 2 Effect of Photon flux density and Temperature of Leaf lettuce Photon flux density 1 2 3 average SD SE Blue 20
46. 1 4 3 1 2 3 2014 2 6 16 00 16 40 1 0C 30 2 DNS 3 5 DNS 2000 1 fe i 0 10mol L pH6 6 0 2mol LNa HPO 18 22mL 0 Imol L 7 6 78mL pH pH 6 6 i 5 0g L 5 0g
47. C Hiz0 Galactose Q CeH 0 Fructose Table 1 Reducers we used in this experiment 31 table 1 Fig 3 Fig 4 table 1 2 1 amp 638 zc AL OD 3S c RE 71 DIR B T 0 010mo1 L Fig 1 A device of potential difference titration 20mL HANG KC1 0 10mo1 L KMn0 fig 1
48. 5 6 9 BA 0 5 LOmg l 2 4 D 0 0 5mg l BA 2 3 4 3 4 4 6 7 8 2 4 D 0 5 2 0mg l BA 0 5mg
49. DNS ac 2 1 CM2 1 1 2014 2 5 H 7 10 12 H 14 19 8 15 8 45 12 30 12 50 4 2 MOR 2 2 2013 12 19 14 25 15 15 20 H 16 00 16 45 2 235
50. 50mL 500mL 1 IL 10g L 1 5 MER 3 7 Ei 2 0mol L 300g approx 500mL wi 3 5 DNS10g 200mL vii DNS wi RLT ix lmg mL 250mg 250mL 2 2 5mL 5 0g L 1 0mL 0 10mo1 L pH6 6 0 50mL 10g L 35 10 WER 0 50mL 1 0 50mL 3 lt E 24 3
51. m AT DSt Cm AT 400 1K 200C 420 1 C 4 450 C vs 5 450 C
52. 1
53. 3 1 Tablel Fig3 100 v 2 66 91 96 100 65 89 20 200 C 30 C 63 94 25 C Cli 52 56 40 20 C 25 C CHE 30 65 95 30 CCR 31 45 80 200 C 25 C 23 61 96 30 C 61 68 100 20 C 25 C 13 39 96 30 C 60 72 2 20 C 100 100 20 40 100 80 100 85 100 35 80 32 25 C 100 100 80 20 40 100
54. 40 36 4 2 1 3 100 100 19 100 100 1 5 Ek 1 20 40 20 80 100 1 80 100 19 4
55. 2 DNS 1 fgg KB 2000 244 247 2 2009 47 2 166 171 3 2009 27 3 The formation of metal tree Yu OSADA Daiki SUZUKI Masato FUKUDA Aoi ISHIKAWA Waka SATO Mayu MATSUMOTO ABSTRACT We were interested in a phenomenon called the metal tree A metal tree is made by the difference in ionization tendencies of different metal ions We particularly experimen
56. Fig 5 Cit 190 Hz 500 Hz 10400 Hz DFC L 23 Fig 6
57. MS Ei OK 25 C16 8 HAM 5mmx5mm 1 10 50 5 6 43 MS Tablel 1 6 MS1 5 AOE SG MS6 10ml a 24 2 4 D 1ml 9596 b BA 10mg 1 2ml 0 1molL HCl 100m
58. p Pa amp po Pa po 20 kPa 3 2 7 dB Fig 7 1 KEY 7 dB Ek 2 2 190 Hz 500 Hz Fig 8 190 Hz
59. lt u gt 1 MBS 1 lt gt gt n 1 4 A B C rr EG Dig Case 1 1 MBO 1 n 1 Case 2 1 k n k Case 3 1 1 Case 4 Case 3
60. 2 6 rr A T Ve P bn j 2 3 4 5 6 7 8 9 1 6 12 18 23 28 31
61. Zn 4Cl ZnCl CT DL HIT AY HT AY ER 4 L 30 pH II ALT
62. 5 1999 30 30 36 33 3 Effect of light on Lettuce seed germination Effects of Light Irradiation Temperature and Photon Flux Density on Lettuce Seed Germination Koichiro Sato Kosuke Miura Naoto Arisumi and Issei Takahashi Abstract The seed which has light germinative characteristic need light to germinate Currently most research haven t been studied with setting temperature Light quality and photon flux density so
63. Hu B 3 it 1 The player chose the door A and the host opened the door B then the host closed the door B o E e e jp 2 The player chose the door C and the host opened the door B then the host closed the door B 3 a M a 2 jp a 3 The player chose the door D and the host opened the door B then the host closed the door B pi 1 3 1 3 4 The player chose the door A and the host opened the door B then the host closed the door B e LI L bp E 1 4 4 UE 1 2
64. Unbiased Vari s DE EURA P Value Judgment variance ratio 1707 59 22 16 0 s 952 07 12 36 0 758 78 9 85 0 77 04 99 Red 660 nm Bluish green 503 nm 100 u molm s 100 gp molm s Blue 475 nm Blue 475 nm 100 molm s 20 u molm s Fig 1 Red Bluish green and Blue LED Lights 20 C Red 100 Bluish green 100 Blue 20 Blue 100 Fig 2 Effect of Light quality and Temperature of Leaf Lettuce u molm s 40 100 100 4 100 90 90 B 80 80 d 70 70 amp g e 60 5 50 50 bb 40 40 o E 30 30 20 20 4 ES 10 10 4 0 0 CEN T1 0 gt SQ Q SG PPS SY FE PO SF Foi e Pd aw a Pd Fd 4 lt Pd lt 20 C 25 C 30 C Fig 3 Effect of Light quality and Temperature of Leaf Lettuce Bars and attached line indicate the mean percentages of germination and triple SE calculated from five dishes 100 4 100 100 4 60 of seed germination 3 9999 e SKK SS S 20 C 25 C 30 C Fig 4 Effect of Photon flux density and Temperature of Leaf Lettuce Bars and attached line indicate the mean percentages of germination and triple SE calculated from five dishes 4 100 90 80 70 60 Red 100 3 l Bluish green 100 i Blue 100 30 20 10 0 20C 25 C 30 C Fig 5 Variance analysis of Effect of Light quality and temperature on three types 100 90 80 70 60
65. 20 C 78 100 22 30 C 20 X 100 100 100 80 40 200 C 25 C 20 84 40 36 3 Table2 KK Fig 4 20 C 20 40 100 80 100 35 80 32 25 C 80 20 40 100 80 56 96 20 54 96 40 46 96 FAX 100 22 30 C 20 100 80 40 200 C 25 C
66. 500 Hz Station 10 Front 190 Hz 500 Hz 1050 Hz OO O oo 0 o O70 O O O OO O Oo QVO DOO OO O 3700 Hz 8500 Hz 10400 Hz OO Oo x X o xox x x X x x o oOx X x x Xx x x X Fig 8 The change of noise levels before and after the anti phase sound was played Noise level dB vg 5 8 zag 5 o B A B B B A B B 190 500 1050 3700 8500 10400 Frequency Hz Fig 9 This Format except for the mean values is the same as Fig 6 Shaded areas show sound pressure levels when correction by the equal loudness curves is disregarded Fig 9 1050 Hz 3700 Hz 8500 Hz 10400 Hz 190 Hz 500 Hz 4 41 3 15 Noise level dB 2g299852582825827 Noise level dB 8 28828 2 3 3 A B o li A B A B B A B 4 A B 190 500 1050 3700 8500 10400 Frequency Hz Fig 10 T
67. 1 90 1 15 1 4 2 2 2 0 87Hz 33cm 2 27cm 54cm 1 15Hz 0 61Hz
68. 1 Bb 240 T 4 PARSE CHA BD C4 TH ERBK x WO See 0 0 BUSES 0 20 450 C 2 0 2 20 3mm 4 0 4 20 6 0 BAC 6 20 2 8 0 1 8 20 14 00 14 10 10 KRE 10 0 eng
69. 12 43 14 35 16 Test section of callus formation 88258 o peers 3 54 135 GT 8 9920911712 1344 15 16 Test section Fig 2 Effect of plant growth regulators on calls slightly formation form leaf explant of 90 4 80 4 70 60 40 30 4 20 4 10 4 0 TE 9 10 11 12 13 14 15 16 Test section Eustoma 8 of callus formation uw eo Fig 3 Effect of plant growth regulators on calls normal formation form leaf explant of Eustoma 7 E 8 5 6 7 8 9 10 11 12 13 14 15 16 Test section Fig 4 Effect of plant growth regulations on callus formation from leaf of Persian violet of callus formation 100 90 80 70 60 50 40 30 20 10 0 1 2 3 MIT 4 5 6 7 89 9 0 11 12 19 I9 15 16 Test section Fig 5 Effect of plant growth regulations on callus slightly formation from leaf of Persian violet 48 100 4 90 4 80 4 70 4 60 4 50 4 40 4 30 4 20 4 a al l 0 2 43 1 4 5 6 2558 91 10 11 42 13 14 15 16 of callus formation Test section Fig 6 Effect of plant growth regulations on callus normal formation from leaf of Persian violet 100 4 90 4 80 4 70 60 50 40 4 30 4 20 4 10 4 0 DEP aet 96 of callus formation 1 2 3x 5567 TT 1849010515712 13 14 15 16 Test section Fig 7 Effect of plant growth regulations on callus excellent formation
70. 2 fig 4 IL TT 2mA 4 4 1 2 1 4 2 2 2 W
71. 3 ie Table 1 2 the rate of prime number table 1 1 aamnlem inzat 5 Joni hona Mna i poa B UP PR REPRE TERES TT Whar 0 v 1 ndn s Unz3t n 3k 4n 230048 4n n in n Im 10n 3 In 6253 In lon ll Domen EAT nin asi ea a PER S mienne s nz3t l n 3k l Qn 3042 0 3kt1 solos of3 Table 2 2 the rate of prime number of table 2 1 n 30 2 n 3k 1 Table 3 1 downward to the left Tageneraltermfwhether lines hare multiples of 30r mot rate Gn 100 numbers 2l n 36 n Tfmultiples of 3 5 23 4 n 2 n 19 multiples of 3 9 n 1n 5 Blin 4n 1 multiples of 3 0 multiples of 3 0 3 multiples of 3 n MM PS 1 f Table 3 2 the rate of prime number of table 3 1 a general terms Un 3t n z3k 2n234 1 2 23k51 0223152222151 31 n 38n41 0 0 2 32 4n 30m 9 1 2 2 3n 20225 1 0 1 34n2 ln 9 0 0 2 Mn 6m 1 2 Mn 2m 3 0 2 38 tn s6n 7 1 2 2 39 tn Mn19 1 1 0 jin 22n 89 0 2 0 Table 4 1 downward to the right a general terms whether lines have multiples of 3r not rate in 100 numbers 31 En 38 n1 multiples of 3 Xin 30 n 49 2 2 Blin n 25 multiplesof 3 3n H9 multiples of3 Im s6n l lin Ont7
72. Blue 20 50 E Blue 40 40 t Blue 80 30 Blue 100 20 10 0 20C 25 C 30 C Fig 6 Variance analysis of Effect of Photon flux density on Blue Light 3 Study on plant regeneration of Gentian familys Leaf derived callus formation from Eustoma and Persian violet Manami Oikawa Naokadoguchi Erika sumiyoshi and Koharu hanyuda Abstract We started researching for make a new kind of Gentian Eustoma and Persian violet which we used for a study have heat resistance and the breeding characteristics that a Gentian plant does not have However we cannot do a crossing because the genus is different from the Gentian Therefore we tried an approach to make new kinds of development of the Gentian by cell fusion And wemade experiments and considered the appropriate medium for cell fusion Our purpose is to research two kinds of plant growth regulator rate and to make a new breeding develop We operated cell fusion in vitro and used two kinds of plant growth regulator BA and 2 4 D In Eustoma the callus formation in the test section contained one or two kinds of plant growth regulator was very good In Persian violet callus formation in the t
73. Vn 2n 3 Jmitipesof3 1l Blin 6n T n tn Hn 19 multiples of 3 B 10i n 22 n 39fmultiplesof3 n Table 4 2 the rate of prime number of table 4 1 Table 1 Table4 1 40 3 eS 36 97 12 45 218222 25 28 32 35 38 FORT 3 3 3 3 4 Table 1 Table 4 3 ofi ti oli Fig 6 3 Fig 6 3 5 7
74. has rough periodicity Key words Frequency analysis Double pendulum Frequency Periodicity 1 2 2 1
75. xx x xox X X X X X X X X X o o Xx x X x xxo xox Fig 4 As seen Fig 3 except for the speaker in the station 10 Sound pressure level dB 16 315 63 125 250 500 1k 2k dk Sk l k Frequency Hzl Fig 6 Equal loudness curve Suzuki er al 2004 3 1 2 6 Wensn 14 Noise level dB ete eeu verse 8 A B Fig 7 The mean value of the noise level before and after the sound of a cleaner was played A shows the value before the anti phase sound was played and B shows the value after the sound was played The error bars show standard deviations DS HWECJ02 CHS 2014 L4 20 log gt gt 0D 0 L dB
76. 50 a x 30 20 10 i A B A B A B A B AB AB 190 500 1050 10400 3700 8500 Frequency Hz Fig 12 The comparison of noise levels before and after the sound of each single tone was played 3 3 4 dB Fig 11 1 5 Fig 12 3 C
77. 80 85 63 76 00 1153 6 66 Blue 40 65 58 58 60 33 404 233 20 C Blue 80 37 23 37 3233 808 4 67 Blue 100 34 38 33 35 00 265 153 White light 33 72 70 71 7100 1 00 0 58 Dark 41 53 34 4267 961 5 55 Blue 20 52 56 54 5400 2 00 1 15 B Blue 40 52 55 30 45 67 13 65 7 88 S 25 C Blue 80 57 61 50 56 00 557 3 21 Blue 100 13 13 39 2167 1501 8 67 E White light 33 79 70 68 72 33 5 86 3 38 Dark 27 32 24 2767 404 2 33 Blue 20 80 94 78 84 00 872 5 03 Blue 40 31 31 45 35 67 8 08 4 67 30C Blue 80 66 68 61 65 00 361 2 08 Blue 100 60 72 69 67 00 624 3 61 White light 33 18 18 13 16 33 289 1 67 Dark 0 0 0 0 00 0 00 0 00 1 Photon flux density 2 Standard deviation 3 Standard error a8 Table 3 Variance analysis of Effect of Light quality and Temperature of Leaf Lettuce Degree Sum of Factor of squared freedom deviation Whole 26 13232 7 Light quality C A 2 1181 56 Temperature 964 22 B AxB 4 2760 89 Error 18 1726 1 Significant value at 0 01 level 2 Significant value at 0 05 level Unbiased Vari n SR aane P Value Judgment variance ratio 3890 78 40 58 0 p 482 11 5 03 0 02 690 22 T2 0 95 89 Table 4 Variance analysis of Effect of Photon flux density and Temperature of Leaf Lettuce Degree Sum of Factor of squared freedom deviation Whole 34 13351 6 Light quality e A 3 5122 77 Temperature B 2 1904 14 AxB 6 4552 7 Error 23 1772 1 Significant value at 0 05 level
78. Lgs MS a IL 800ml MS1 6 a 30g1 BCL IL pH 5 8 0 1molL NaOH HCl 2gl HTE lt Dl REE 100 C 10 Lik 1 100ml 120 C 15 1 2atm b Table 2 1 5 16 1 5 4 RLE pH 5 8 120 C 15 TOK Table 8 1
79. es by one speaker located in front of the other speaker Key words anti phase sound power spectral density sound pressure level noise level shielding effect 1 2012 2 2 1
80. est section contained two kinds of plant growth regulator was good Key word Eustoma Persian violet callus shoot tissue culture 1 aU 2 C1 Eustoma gramdifloum Raf Shinn Exacum affine Balf 2 70 20 1 10 20 30 Murashige and Skoog 1962
81. from leaf of Persian violet Fig 8 Leafderived Callus formation of Eustoma 7 Test section 49 Fig 9 Leaf derived Callus formation of Eustoma 4 Test section Fig 10 shoot formation from callus of Eustoma 5 Test section Fig 11 root formation from callus of Eustoma 2 Test section Fig 12 Leaf derived Callus formation of Persian violet 2 Test section 3 The ignition point of paper Takehiro UENO Ren SATO Hironori TAKAHASHI Aki SAITO Miho CHIDA ABSTRACT When we expose a paper to sunlight directly it doesnt catch fire But it can catch fire when we converged the sunlight on it We started our study because we thought it is possible to measure the ignition point of copy paper by using this phenomenon After we measured the time until the paper catch fire and direct solar irradiance we calculated the temperature increase in the copy paper It was 400 1 C At the beginning of the experiment the temperature of paper was 20 C So we estimate that the ignition point of the copy paper was 420 1 C With our method we managed to calculate the ignition point of the paper almost accurately So it can be said that we could calculate the ignition point of the copy paper with our method Key words direct solar irradiance pyrheliometer
82. he comparison of the mean value of noise levels before and after the sound was insulated by a speaker A shows the noise level before the sound was insulated from speakers and B shows after the sound was insulated A Fig 11 The comparison of the mean value of noise levels before and after the coordinate sound was played A shows the noise level before the coordinate sound was played and B shows the level after the coordinate sound was played 6 190 Hz 500 Hz 1050 Hz 3700 Hz 8500 Hz 10400 Hz 2 Fig 10 4 2 Noise level dB 8 8 T T 70 1 T 60
83. lity that the door is opened a timing of changing and repeating the same operation Also the probability continues changing when we repeat the same operation We find more search is necessary We mention the assignment not only to find the probability distribution of a regular probability but also to express it with formulas Key Word equally likely actual probability apparent probability Bayes theorem Monty Hall Problem 1 ib 2 lt gt 3
84. n 1 8 8n 4 a g n220 n 1 a 1 gt bk k 1 4n 8n45 n 1 2 3 m m m cn n mk mk 1 mk 2 gt mk m 1 E 0 gt Ly Agom c m Gak Cms qe m1 m m T ch m 3 3
85. numbers are marked On the spiral of Ulam many prime numbers appear diagonally and prime numbers form a characteristic pattern We researched why prime numbers make characteristic patterns on the spiral of Ulam We substituted numbers 31 31 1 and 3142 for each progression on the spiral of Ulam As a result we found that progressions without multiples of 3 tend to have high rate of containing prime numbers and progressions which do not include multiples of 3 appear every 3 lines Since the appearance of progressions without multiples of 3 has certain regularity we considered the spiral of Ulam makes a lattice pattern Keywords Spiral of Ulam Multiples of 3 Prime numbers Progression Odd number 1 1 YF ARRE Fig 1
86. player chose door D and the host opened the door E weis s v 2 2 The player chose door C and the host opened the door A AD a a ae ee RE E s vp sep 3 1 The player chose door C again and the host opened the door D ha 19g 4 0 1 n ES 3 2 The player chose door D and the host opened the door C 3 3 The player chose door D and the host opened the door E Le loe puis p e 2 3 The player chose door C and the host opened the door D 3 1 The player chose door C again and the host opened the door A 3 2 The player chose door C again and the host opened the door E 3 3 The player were back door A and the host opened the door C 374 The player were back door A and the host opened the door E See ee Ee 3 5 The player chose door E and the host opened the door A Ls De pope 3 6 The player chose door E and the host opened the door C Case 4 The player chose the door A and the host opened the door B then the host closed the door B 2 They did the same operation 1 4 1 2 c T w j 2 1 9 22 9 22
87. ted on copper trees Various sizes of copper tree are formed by changing different parameters We experimented on the copper trees by adding various solutions to them As a result of the experiment we found that when chloride ions are present in a solution the copper tree gets bigger Therefore we examined whether solutions containing chloride ions would help copper trees get bigger Key words 1 KE TL
88. we studied the effects of light quality temperature and photon flux density on seed germination in leaf lettuce We found that Red and Bluish green right promoted the seed germination But Blue right inhibits it Also there is a dominant correlation between Light quality and Temperature in seed germination Key words Seed germination Temperature Photon flux density Light quality Light germinative characteristic correlation 1 Bothwick 1952 Flint 1935 Grand Rapid 2003 2 Lactuca sativaL
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