TK II fsv0 Work_Win 3.5inch fsv0work_ Win P.7179 P.75 ) ) ) D) ) ) ) D) 36 0.8Pa [g] 180 4Pa inch inch 2.54cm 1
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COH 2 etc 1.510 4 / 3 310 7 L 1500 5500 6000 1800 1500 1500 2700 210 10 cal 184 40% 4
41 + (-2-15) y y (-2-16) y y (-2-17) (-2-18) 5
Problems 5. comound insoluble in ater is steam distilled at 98.0 under the ressure, 737 Torr, the distillate containing 75 t er cent H2O. The vaor ressure of ater is 707 Torr at 98.0. What is the molecular eight of the comound? 7.5 98.0737Torr 98.0 707Torr 75 o o x + x (1) + (-2-15) y i xi i (2) y x (3) y x (4) 6
y y (-2-16) n (5) y y y y n (-2-17) n (6) (-2-18) 737 Torr, 707 Torr + (1) (2) 737 707 30 Torr 100g 75, 25, 18.0 25 707 18.0 75 30 141 141 7
P.1932 inch(in) inch(in) cminch(in) 2.540 inch(in) cm lb ( 0.4536kg) gal ( 0.003785 m 3 ).t.u 252.0 cal1.055 10 3 J Web tu htt://.eleo.net/henkan/shigoto.htm htt://.ardre.com/alication/si_unit_convert.h?mod7 Web htt://ja.ikiedia.org/iki/ 180 9 f c + 32 c + 32 100 5 Netscae Navigator PInternet Tools 8
Netscae CommunicatorNetscae Navigator Yahoohtt://.yahoo.co.j/ inchfeetgal.t.u. 9
(1) 1.5010 3 in - 1.5010 3 2.540 3.8110 3 cm (2) 10.0 ft - 10.00.3048 3.05 m 5 (3) 9.610 F - (96 32) 3.6 10 9 (4) 25.00-25.00 273.15 298.15 K (5) 4.80 10 3 cal - 4.8010 3 4.1862.0110 4 (6) 4.50.t.u. - 4.502.52010 2 1.1310 3 cal J (1) 20 in cm (2) 100 mile/hr km/hr (3) 0 F - (4) 100 - K (5) 1.50 10 3 kwhr - J (6) 1.t.u - cal 1) 2) Excel 3) Excel.xls Vex1_0_1.xls Vex1_0_1.xls 4) Excel Visual asic Vex1_0_1.xls Vex1_0_1.xls 10
Excel Sheet1 Visual asic Excel Sheet1 Visual asic Sub convert_ex1_0_1() Dim n s Integer Dim x(10) s Double Dim factor(10) s Double n 5 ' factor(i) "E5E9"5,5)(9,5) 11
For i 1 To n factor(i) Cells(4 + i, 5) Next i ' "55,2) x(1) Cells(5, 2).Value ' factor(i) For i 2 To n x(i) factor(i) * x(1) Next i ' x(i) factor(i)*x(i) "69"6,2)(9,2) For i 2 To n Cells(4 + i, 2).Value x(i) Next i End Sub 6) Visual asic Web NetNet V Excel.xls Vex1_0_1.xls Vex1_0_1.xls Sheet1 V Vex1_0_2.xls Vex1_0_1.xls Excel Sub convert_ex1_0_1() Sub convert_ex1_0_2()excel Sheet1 Vex1_0_2.xls Excel Sheet1 Excl sheet 12
sheet V convert_ex1_0_2ok sheet sheet convert_ex1_0_2 Excel.xls Vex1_0_1.xls Vex1_0_2.xls Sheet1 V 13
Vex1_0_3.xls Vex1_0_2.xls Excel Sub convert_ex1_0_2() Sub convert_ex1_0_3()excel Sheet1 Vex1_0_3.xls Excel Sheet1 V Excel Sheet1 V Excl sheet acro1resetcalc1 OK 14
Delete Excel ResetCalc1 15
V Sub ResetCalc1() '' ResetCalc1 acro ' : 2005/3/21 : ishima lication.run " Vex1_0_3.xls!convert_ex1_0_2" Range("6:9").Select Selection.ClearContents Range("F6").Select End Sub Excel Sheet1 Excl sheet sheet V ResetCalc1OK 16
sheet sheet ResetCalc1 VScrit Web 17
m in <html> <head> <meta htt-equiv"content-tye" content"text/html; charsetx-sjis"> <meta name"genertor" content"icrosoft FrontPage 2.0"> <title>uc1 </title> </head> <body> <><scrit language"vscrit"> Dim factor(5),in,inutvalue factor(1) 1 ' m to m. factor(2) 39.37007874 ' m to in. factor(3) 3.280839895 ' m to ft. factor(4) 1.093613298 ' m to yards. factor(5) 0.00062137119 ' m to mi. Sub Convertform x1val0.value val1.valuex1*factor(1) val2.valuex1*factor(2) val3.valuex1*factor(3) 18
val4.valuex1*factor(4) val5.valuex1*factor(5) End Sub </scrit> </> <h3> m [L]</h3> <h3> m </h3> <></> <> <inut size"16" nameval0> m </> <> </> <><br> </> <table border"0"> <tr> <td><inut size"16" nameval1></td> <td>m</td> </tr> <tr> <td><inut size"16" nameval2></td> <td>in</td> </tr> <tr> <td><inut size"16" nameval3></td> <td>ft</td> </tr> <tr> <td><inut size"16" nameval4></td> <td>yd</td> </tr> <tr> <td><inut size"16" nameval5></td> <td>mile</td> </tr> </table> <table border"0"> <tr> <td align"center"><inut tye"button" value"" onclick"convertform"></td> </tr> </table> <> </> 19
<hr> </body> </html> 2.1 K b [g] []T[K] T K m b (e-1-1) K b 1000 T (e-1-2) Kb 1000 1 60.1g 20
1000 6.01 60.1 1000 6.00 6000 1000g 1 32.07g 1000g 3.207g 32.07 200 15g T[K] 0.65 K 500g 15g T[K] 2.22 K 0.01 18 molalitymole fractionx [] n n molarlity 1000 1000g n n 1000 (e-1-3) nt nt n + m (e-1-4) 21
x m n t m n + m (e-1-4 ) 1000 molality x m 1000 x (e-1-5) n 1000 + m x m 1000 + m (e-1-6) nt n + m molality 1000 ( + m) x m (e-1-7) m 1000 x 1 x (e-1-8) m 1000 x 1 x (e-1-9) 1000 x x 0.01 1860.1 molalityeight fraction [] n n molarlity 1000 1000 1000 (e-1-10) m (e-1-11) + (e-1-12) 22
m m 1000 + m (e-1-13) 1000 molality ( 1000 + m ) 1m (e-1-14) m m 1000 (1 ) (e-1-15) 1000 (e-1-16) 1 moldm 3 [g/cm 3 ]0.98 60.118 molalitymolarityc [] n n molarityc [g/cm 3 ][g/cm 3 ]Vdm 3 1000 cm 3 t [g] t Vρ 1000ρ (e-1-17) C [mole] [g] [g] C (e-1-18) C 1000ρ C (e-1-19) t m 1000 C 1000ρ C (e-1-20) V t V molarityc 23
x C n + C C 1000ρ C + C (e-1-21) x C 1000ρ + C ( ) (e-1-22) C C x (e-1-23) 1000ρ 10 60.118 [] 100 [] n n n 100 n (e-1-24) x n n + n 100 + (e-1-25) molality x x (e-1-26) 1000 m + m 1000 ( + m) x m (e-1-27) m 1000 x 1 x (e-1-28) m 1000 x 1 x (e-1-29) 1000 x x 24
x n n + n 100 + m 1000 + m (e-1-30) x m 1000 + m (e-1-31) 1000m 60.118 m(art er million) 100 m 1000,000 UVUltra Violet YahooGeoCities htt://.geocities.co.j/natureland/4339/asio.html 25
htt://10.lala.or.j/bioton/manual/cr_f/cr_03.htm 26
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c I 0 /I()20.xls C[mol/dm 3 ] 0.01 0.05 0.1 0.5 I 0 /I 1.82 100 22000 5.74E+20 ya 0 +a 1 x I log( 0 ) 41.7C 0. 032 I log( I / ) 0.032 log(20) 0.032 0 I + + C 3.2010-2 [mol/dm 3 ] 41.7 41.7 I/I 0 c I log I 0 lc 28
(1) c I dx di I di c dx di kcidx (2) dx di I 0 I l (2) I c I dx di di I di I (3) di di c (4) di I c k (2) I dx di (2) I c I 0 l 1cm Ic (2) (2) I c 29
di I I di l kcdx I0 I 0 kcdx (5) dx ln x + dx x x 1 + (6) [ ln ] [ kcx] l (7) I I I 0 0 ln I ln I 0 kcl + 0 (8) ln I 0 ln I kcl (9) I 0 ln kcl (10) I log 1 log 0 10 10 e I ( ) kcl (11) I I 0 k log10 ( ) cl (12) I 2.303 k/2.3.3 I 0 log10 ( ) ε cl (13) I 30