2
0
2012
smi
let
0
journal
Original
Smirnova, N. N.
Letyanina, I. A.
Zakharova, Y. A.[Yu. A.]
Pimerzin, A. A.
Vishnevskaya, E. E.
J. Chem. Thermodyn.
2012
2020-09-29
Thermodynamic properties of neopentylbenzene over the range from T approaching (0 to 350) K
In the present research, the temperature dependence of heat capacity C_p,m = f(T) of neopentylbenzene C6H5-C5H11 has been measured between T = (6 and 350) K in the precision adiabatic vacuum calorimeter and reported for the first time. The temperature and enthalpy of fusion of neopentylbenzene and the total mole fraction of impurities have been determined. The experimental results have been used to calculate the standard (p = 0.1 MPa) thermodynamic functions of neopentylbenzene over the range from T approaching (0 to 350) K. The standard entropy of formation of the compound under study at T = 298.15 K has been calculated.
Neopentylbenzene
Adiabatic vacuum calorimetry
Heat capacity
Standard thermodynamic functions
10.1016/j.jct.2011.12.010
48
118-122
1
InChI=1S/C11H16/c1-11(2,3)9-10-7-5-4-6-8-10/h4-8H,9H2,1-3H3
CJGXJKVMUHXVHL-UHFFFAOYSA-N
(2,2-dimethylpropyl)benzene
benzene, (2,2-dimethylpropyl)-
benzene, neopentyl-
neopentylbenzene
C11H16
1
Synthesized by others
1
Fractional distillation
2
99.89
4
Fraction melting in an adiabatic calorimeter
1
1
1
Principal objective of the work
SMP
XXX
7/13/2012
1
Molar enthalpy of transition or fusion, kJ/mol
Adiabatic calorimetry
Crystal
Direct value, X
1
Data file compiler
Propagation of evaluated standard uncertainties
95
Crystal
Liquid
Gas
1
15.382
5
1
0.103
2
1
1
Principal objective of the work
SMP
TRC
7/13/2012
1
Triple point temperature, K
Adiabatic calorimetry
Crystal
Direct value, X
1
Data file compiler
Propagation of evaluated standard uncertainties
95
Crystal
Liquid
Gas
1
255.43
5
1
0.05
3
1
1
Principal objective of the work
SMP
XXX
7/13/2012
1
Molar heat capacity at constant pressure, J/K/mol
Vacuum adiabatic calorimetry
Crystal
Direct value, X
1
Data file compiler
Propagation of evaluated standard uncertainties
95
Crystal
1
Pressure, kPa
Crystal
101.325
6
1
Temperature, K
Crystal
1
5
1
1
0.3584
4
1
0.0165
1
10
1
1
2.835
4
1
0.036
1
15
2
1
8.156
4
1
0.069
1
20
1
1
15.37
4
1
0.1
1
25
2
1
23.31
4
1
0.12
1
30
1
1
30.36
4
1
0.1
1
35
2
1
36.76
4
1
0.12
1
40
1
1
42.83
4
1
0.13
1
45
2
1
48.21
4
1
0.14
1
50
1
1
52.68
4
1
0.15
1
60
1
1
61.21
4
1
0.16
1
70
1
1
69.54
4
1
0.18
1
80
1
1
76.67
4
1
0.19
1
90
1
1
84.14
4
1
0.28
1
100
1
1
91.54
4
1
0.29
1
110
2
1
98.78
4
1
0.3
1
120
2
1
105.9
4
1
0.3
1
130
2
1
112.8
4
1
0.3
1
140
2
1
119.7
4
1
0.3
1
150
2
1
126.5
4
1
0.3
1
160
2
1
133.4
4
1
0.3
1
170
2
1
140.3
4
1
0.3
1
180
2
1
147.4
4
1
0.4
1
190
2
1
154.6
4
1
0.4
1
200
1
1
162
4
1
0.4
1
210
2
1
169.1
4
1
0.4
1
220
2
1
175.9
4
1
0.4
1
230
2
1
182.6
4
1
0.4
1
240
2
1
189.4
4
1
0.4
1
250
2
1
196.1
4
1
0.4
1
255.43
5
1
199.7
4
1
0.4
4
1
1
Principal objective of the work
SMP
XXX
7/13/2012
1
Molar heat capacity at constant pressure, J/K/mol
Vacuum adiabatic calorimetry
Liquid
Direct value, X
1
Data file compiler
Propagation of evaluated standard uncertainties
95
Liquid
1
Pressure, kPa
Liquid
101.325
6
1
Temperature, K
Liquid
1
255.43
5
1
249.6
4
1
0.5
1
260
2
1
252
4
1
0.5
1
270
2
1
257.2
4
1
0.5
1
280
2
1
262.5
4
1
0.5
1
290
2
1
268
4
1
0.5
1
298.15
5
1
271.9
4
1
0.5
1
300
1
1
272.6
4
1
0.5
1
310
2
1
276.3
4
1
0.5
1
320
2
1
279.8
4
1
0.5
1
330
2
1
284.4
4
1
0.5
1
340
2
1
290.8
4
1
0.5
1
350
2
1
297
4
1
0.5
5
1
1
Principal objective of the work
SMP
XXX
7/13/2012
1
Molar enthalpy, kJ/mol
Vacuum adiabatic calorimetry
Crystal
Difference with the reference state, X-X(REF)
Reference phase with the same composition at fixed temperature and pressure
0
1
100
1
Crystal
1
Data file compiler
Propagation of evaluated standard uncertainties
95
Crystal
1
Pressure, kPa
Crystal
101.325
6
1
Temperature, K
Crystal
1
5
1
1
0.0003999
4
1
6.01e-05
1
10
1
1
0.0072
4
1
0.00017
1
15
2
1
0.03355
4
1
0.00041
1
20
1
1
0.09139
4
1
0.00078
1
25
2
1
0.1883
4
1
0.0012
1
30
1
1
0.323
4
1
0.0019
1
35
2
1
0.4909
4
1
0.0025
1
40
1
1
0.6898
4
1
0.0031
1
45
2
1
0.9178
4
1
0.0038
1
50
1
1
1.17
4
1
0.005
1
60
1
1
1.739
4
1
0.006
1
70
1
1
2.394
4
1
0.008
1
80
1
1
3.126
4
1
0.01
1
90
1
1
3.929
4
1
0.022
1
100
1
1
4.808
4
1
0.025
1
110
2
1
5.76
4
1
0.028
1
120
2
1
6.785
4
1
0.031
1
130
2
1
7.878
4
1
0.034
1
140
2
1
9.041
4
1
0.037
1
150
2
1
10.273
5
1
0.04
1
160
2
1
11.572
5
1
0.044
1
170
2
1
12.942
5
1
0.047
1
180
2
1
14.379
5
1
0.05
1
190
2
1
15.892
5
1
0.054
1
200
1
1
17.477
5
1
0.058
1
210
2
1
19.136
5
1
0.061
1
220
2
1
20.853
5
1
0.065
1
230
2
1
22.642
5
1
0.069
1
240
2
1
24.504
5
1
0.073
1
250
2
1
26.44
5
1
0.077
1
255.43
5
1
27.503
5
1
0.079
6
1
1
Principal objective of the work
SMP
XXX
7/13/2012
1
Molar enthalpy, kJ/mol
Vacuum adiabatic calorimetry
Liquid
Difference with the reference state, X-X(REF)
Reference phase with the same composition at fixed temperature and pressure
0
1
100
1
Crystal
1
Data file compiler
Propagation of evaluated standard uncertainties
95
Liquid
1
Pressure, kPa
Liquid
101.325
6
1
Temperature, K
Liquid
1
255.43
5
1
42.878
5
1
0.094
1
260
2
1
44.035
5
1
0.096
1
270
2
1
46.581
5
1
0.101
1
280
2
1
49.168
5
1
0.105
1
290
2
1
51.84
5
1
0.11
1
298.15
5
1
54.041
5
1
0.114
1
300
1
1
54.526
5
1
0.115
1
310
2
1
57.271
5
1
0.119
1
320
2
1
60.05
5
1
0.124
1
330
2
1
62.887
5
1
0.129
1
340
2
1
65.754
5
1
0.134
1
350
2
1
68.706
5
1
0.139
7
1
1
Principal objective of the work
SMP
XXX
7/13/2012
1
Molar entropy, J/K/mol
Vacuum adiabatic calorimetry
Crystal
Direct value, X
1
Data file compiler
Propagation of evaluated standard uncertainties
95
Crystal
1
Pressure, kPa
Crystal
101.325
6
1
Temperature, K
Crystal
1
5
1
1
0.1197
4
1
0.0169
1
10
1
1
0.956
3
1
0.027
1
15
2
1
3.026
4
1
0.047
1
20
1
1
6.298
4
1
0.07
1
25
2
1
10.58
4
1
0.09
1
30
1
1
15.48
4
1
0.11
1
35
2
1
20.64
4
1
0.12
1
40
1
1
25.96
4
1
0.14
1
45
2
1
31.32
4
1
0.16
1
50
1
1
36.64
4
1
0.17
1
60
1
1
46.98
4
1
0.2
1
70
1
1
57.07
4
1
0.23
1
80
1
1
66.82
4
1
0.26
1
90
1
1
76.28
4
1
0.41
1
100
1
1
85.56
4
1
0.43
1
110
2
1
94.62
4
1
0.44
1
120
2
1
103.5
4
1
0.5
1
130
2
1
112.2
4
1
0.5
1
140
2
1
120.9
4
1
0.5
1
150
2
1
129.4
4
1
0.5
1
160
2
1
137.8
4
1
0.5
1
170
2
1
146.1
4
1
0.5
1
180
2
1
154.2
4
1
0.5
1
190
2
1
162.5
4
1
0.5
1
200
1
1
170.5
4
1
0.6
1
210
2
1
178.6
4
1
0.6
1
220
2
1
186.7
4
1
0.6
1
230
2
1
194.6
4
1
0.6
1
240
2
1
202.5
4
1
0.6
1
250
2
1
210.4
4
1
0.6
1
255.43
5
1
214.7
4
1
0.6
8
1
1
Principal objective of the work
SMP
XXX
7/13/2012
1
Molar entropy, J/K/mol
Vacuum adiabatic calorimetry
Liquid
Direct value, X
1
Data file compiler
Propagation of evaluated standard uncertainties
95
Liquid
1
Pressure, kPa
Liquid
101.325
6
1
Temperature, K
Liquid
1
255.43
5
1
274.9
4
1
0.7
1
260
2
1
279.4
4
1
0.7
1
270
2
1
288.9
4
1
0.7
1
280
2
1
298.4
4
1
0.7
1
290
2
1
307.7
4
1
0.8
1
298.15
5
1
315.2
4
1
0.8
1
300
1
1
316.9
4
1
0.8
1
310
2
1
325.8
4
1
0.8
1
320
2
1
334.7
4
1
0.8
1
330
2
1
343.4
4
1
0.8
1
340
2
1
351.9
4
1
0.8
1
350
2
1
360.4
4
1
0.8
9
1
1
Principal objective of the work
SMP
SMP
3/26/2013
1
Molar heat capacity at constant pressure, J/K/mol
Vacuum adiabatic calorimetry
Crystal
Direct value, X
1
Data file compiler
Propagation of evaluated standard uncertainties
95
Crystal
1
Pressure, kPa
Crystal
101.325
6
1
Temperature, K
Crystal
1
79.98
4
1
76.76
4
1
0.19
1
81.93
4
1
78.1
4
1
0.2
1
83.87
4
1
79.5
4
1
0.2
1
85.81
4
1
80.93
4
1
0.2
1
87.75
4
1
82.4
4
1
0.21
1
89.69
4
1
83.89
4
1
0.21
1
91.64
4
1
85.39
4
1
0.29
1
93.59
4
1
86.97
4
1
0.29
1
95.54
4
1
88.3
4
1
0.29
1
97.5
4
1
89.8
4
1
0.29
1
99.45
4
1
91.29
4
1
0.29
1
101.41
5
1
92.54
4
1
0.29
1
103.37
5
1
94.12
4
1
0.29
1
105.32
5
1
95.53
4
1
0.3
1
107.28
5
1
97.03
4
1
0.3
1
109.23
5
1
98.11
4
1
0.3
1
111.18
5
1
99.61
4
1
0.3
1
113.14
5
1
100.85
5
1
0.3
1
115.09
5
1
102.6
5
1
0.3
1
117.46
5
1
104.26
5
1
0.3
1
119.37
5
1
105.34
5
1
0.31
1
121.31
5
1
106.92
5
1
0.31
1
123.26
5
1
108
5
1
0.31
1
125.2
5
1
109.67
5
1
0.31
1
127.13
5
1
110.75
5
1
0.31
1
129.07
5
1
111.99
5
1
0.31
1
131
5
1
113.49
5
1
0.31
1
132.93
5
1
115.07
5
1
0.32
1
134.85
5
1
116.15
5
1
0.32
1
136.78
5
1
117.4
5
1
0.32
1
138.7
5
1
118.65
5
1
0.32
1
140.61
5
1
120.14
5
1
0.32
1
142.53
5
1
121.39
5
1
0.32
1
144.43
5
1
122.97
5
1
0.32
1
146.34
5
1
124.22
5
1
0.32
1
148.22
5
1
125.63
5
1
0.33
1
150.12
5
1
126.88
5
1
0.33
1
152.5
5
1
128.37
5
1
0.33
1
155.37
5
1
130.04
5
1
0.33
1
158.24
5
1
132.28
5
1
0.33
1
161.11
5
1
134.11
5
1
0.33
1
163.99
5
1
135.94
5
1
0.34
1
166.87
5
1
138.27
5
1
0.34
1
169.76
5
1
140.35
5
1
0.34
1
172.66
5
1
141.93
5
1
0.34
1
175.55
5
1
144.34
5
1
0.34
1
178.45
5
1
146.25
5
1
0.35
1
181.36
5
1
148.33
5
1
0.35
1
184.27
5
1
150.32
5
1
0.35
1
187.18
5
1
152.57
5
1
0.35
1
190.11
5
1
154.9
5
1
0.36
1
194.33
5
1
157.56
5
1
0.36
1
197.18
5
1
160.05
5
1
0.36
1
200.37
5
1
162.3
5
1
0.36
1
203.56
5
1
164.63
5
1
0.36
1
206.46
5
1
166.79
5
1
0.37
1
209.27
5
1
168.78
5
1
0.37
1
212.11
5
1
170.36
5
1
0.37
1
215.02
5
1
172.52
5
1
0.37
1
217.92
5
1
174.27
5
1
0.37
1
220.82
5
1
176.51
5
1
0.38
1
223.7
5
1
178.18
5
1
0.38
1
226.59
5
1
180.26
5
1
0.38
1
229.46
5
1
182.33
5
1
0.38
1
232.33
5
1
184.33
5
1
0.38
1
235.2
5
1
186.58
5
1
0.39
1
238.05
5
1
188.32
5
1
0.39
1
240.89
5
1
190.48
5
1
0.39
1
243.72
5
1
192.4
5
1
0.39
1
246.56
5
1
197.88
5
1
0.4
1
249.34
5
1
207.61
5
1
0.42
1
252.01
5
1
245.27
5
1
0.69
1
254.15
5
1
685.44
5
1
33.86
1
255.01
5
1
4462.34
6
1
536.79
1
255.21
5
1
9885.82
6
1
181.79
1
255.28
5
1
25300.72
7
1
816.28
1
255.31
5
1
57760.14
7
1
1824.4
1
255.33
5
1
87966.35
7
1
2711.88
1
255.34
5
1
129413.64
8
1
3946.17
1
255.35
5
1
107812.82
8
1
3231.52
1
255.36
5
1
116093.97
8
1
3430.68
1
255.37
5
1
104711.55
8
1
3045.32
1
246.6
5
1
202.12
5
1
0.4
1
252.39
5
1
417.05
5
1
1.1
1
255.06
5
1
8092.41
6
1
529.68
1
255.28
5
1
48988.44
7
1
1619.6
1
255.33
5
1
76733.6
7
1
2360.67
1
239.91
5
1
189.73
5
1
0.39
1
240.92
5
1
190.57
5
1
0.39
1
241.92
5
1
190.98
5
1
0.39
1
242.92
5
1
191.9
5
1
0.39
1
243.92
5
1
192.73
5
1
0.39
1
244.93
5
1
193.73
5
1
0.39
1
246
5
1
195.64
5
1
0.41
1
247.1
5
1
197.38
5
1
0.4
1
248.19
5
1
200.88
5
1
0.41
1
249.28
5
1
206.03
5
1
0.42
1
250.36
5
1
213.26
5
1
0.44
1
251.42
5
1
222.66
5
1
2.02
1
252.46
5
1
249.27
5
1
1.03
1
253.4
5
1
315.03
5
1
3.33
1
254.18
5
1
538.11
5
1
33.55
1
254.69
5
1
1232.19
6
1
624.41
1
254.95
5
1
2919.19
6
1
558.88
1
255.09
5
1
5555.68
6
1
503.89
1
255.17
5
1
8555.52
6
1
162.2
1
255.22
5
1
11108.04
7
1
203.58
1
255.24
5
1
13801.9
7
1
250.65
1
255.27
5
1
19397.5
7
1
626.7
1
255.29
5
1
27603.81
7
1
879.49
1
255.3
5
1
34197.13
7
1
1081.36
1
255.31
5
1
44199.35
7
1
1386.75
1
255.32
5
1
54201.57
7
1
1682.45
1
255.33
5
1
64902.21
7
1
1990.75
1
255.33
5
1
77698.07
7
1
2390.83
1
255.34
5
1
99598.2
7
1
3028.29
1
255.34
5
1
126902.69
8
1
3868.87
1
255.35
5
1
195005.94
8
1
5875.18
1
255.35
5
1
778028.29
8
1
23552.14
1
255.36
5
1
139000.14
8
1
4114.83
1
255.36
5
1
123402.32
8
1
3648.96
1
255.37
5
1
85039.68
7
1
2466.4
1
255.37
5
1
73299.75
7
1
2120.91
1
255.37
5
1
60803.21
7
1
1753.15
1
255.38
5
1
53104.07
7
1
1504.48
1
255.38
5
1
47999.03
7
1
1356.42
1
255.4
5
1
38296.13
7
1
1044.76
1
6.43
3
1
0.79
2
1
0.02
1
6.83
3
1
0.95
2
1
0.02
1
7.1
3
1
1.05
3
1
0.02
1
7.5
3
1
1.2
3
1
0.02
1
7.91
3
1
1.41
3
1
0.02
1
8.27
3
1
1.62
3
1
0.03
1
8.57
3
1
1.81
3
1
0.03
1
8.9
3
1
2.04
3
1
0.03
1
9.24
3
1
2.3
3
1
0.03
1
9.58
3
1
2.54
3
1
0.03
1
9.91
3
1
2.77
3
1
0.04
1
10.24
4
1
3
3
1
0.04
1
10.55
4
1
3.28
3
1
0.04
1
10.86
4
1
3.54
3
1
0.04
1
11.15
4
1
3.76
3
1
0.04
1
11.45
4
1
4.08
3
1
0.05
1
11.74
4
1
4.36
3
1
0.05
1
12.04
4
1
4.69
3
1
0.05
1
12.51
4
1
5.2
3
1
0.05
1
13.17
4
1
6
3
1
0.06
1
13.78
4
1
6.68
3
1
0.06
1
14.4
4
1
7.42
3
1
0.07
1
14.99
4
1
8.11
3
1
0.07
1
15.59
4
1
8.88
3
1
0.07
1
16.17
4
1
9.65
3
1
0.08
1
16.76
4
1
10.42
4
1
0.08
1
17.35
4
1
11.18
4
1
0.08
1
18.02
4
1
12.15
4
1
0.09
1
18.82
4
1
13.47
4
1
0.09
1
19.44
4
1
14.45
4
1
0.1
1
20.07
4
1
15.49
4
1
0.1
1
20.87
4
1
16.75
4
1
0.11
1
21.6
4
1
17.96
4
1
0.11
1
22.31
4
1
19.18
4
1
0.11
1
22.92
4
1
20.15
4
1
0.11
1
23.68
4
1
21.34
4
1
0.12
1
24.39
4
1
22.44
4
1
0.12
1
25.18
4
1
23.58
4
1
0.12
1
25.93
4
1
24.66
4
1
0.12
1
26.71
4
1
25.76
4
1
0.12
1
27.52
4
1
26.89
4
1
0.12
1
28.33
4
1
28.13
4
1
0.12
1
29.16
4
1
29.24
4
1
0.12
1
30.01
4
1
30.42
4
1
0.1
1
30.87
4
1
31.42
4
1
0.11
1
31.75
4
1
32.74
4
1
0.11
1
32.64
4
1
33.75
4
1
0.11
1
33.41
4
1
34.7
4
1
0.11
1
34.46
4
1
36.13
4
1
0.12
1
35.4
4
1
37.3
4
1
0.12
1
36.35
4
1
38.43
4
1
0.12
1
37.32
4
1
39.67
4
1
0.12
1
38.31
4
1
40.94
4
1
0.12
1
39.3
4
1
41.89
4
1
0.13
1
40.33
4
1
43.02
4
1
0.13
1
41.36
4
1
44.25
4
1
0.13
1
42.4
4
1
45.57
4
1
0.13
1
43.47
4
1
46.7
4
1
0.14
1
44.54
4
1
47.93
4
1
0.14
1
45.63
4
1
48.9
4
1
0.14
1
46.73
4
1
49.79
4
1
0.14
1
47.83
4
1
50.85
4
1
0.14
1
48.96
4
1
51.7
4
1
0.14
1
50.08
4
1
52.7
4
1
0.15
1
51.22
4
1
53.77
4
1
0.15
1
52.37
4
1
54.62
4
1
0.15
1
53.54
4
1
55.66
4
1
0.15
1
54.59
4
1
56.42
4
1
0.15
1
56
4
1
57.64
4
1
0.16
1
57.09
4
1
58.58
4
1
0.16
1
58.29
4
1
59.72
4
1
0.16
1
59.5
4
1
60.71
4
1
0.16
1
60.59
4
1
61.7
4
1
0.16
1
61.93
4
1
63.06
4
1
0.17
1
63.16
4
1
64.15
4
1
0.17
1
64.57
4
1
65.26
4
1
0.17
1
65.64
4
1
66.12
4
1
0.17
1
66.89
4
1
67.2
4
1
0.18
1
68.15
4
1
68
4
1
0.18
1
69.4
4
1
69.06
4
1
0.18
1
70.99
4
1
70.19
4
1
0.18
1
72.9
4
1
71.7
4
1
0.18
1
74.83
4
1
72.92
4
1
0.19
1
76.87
4
1
74.43
4
1
0.19
1
78.7
4
1
75.75
4
1
0.19
1
80.65
4
1
77.08
4
1
0.19
1
82.61
4
1
78.8
4
1
0.2
1
84.58
4
1
80.15
4
1
0.2
1
86.55
4
1
81.42
4
1
0.2
1
88.51
4
1
82.92
4
1
0.21
1
90.49
4
1
84.64
4
1
0.29
1
92.48
4
1
86.14
4
1
0.29
10
1
1
Principal objective of the work
SMP
SMP
3/26/2013
1
Molar heat capacity at constant pressure, J/K/mol
Vacuum adiabatic calorimetry
Liquid
Direct value, X
1
Data file compiler
Propagation of evaluated standard uncertainties
95
Liquid
1
Pressure, kPa
Liquid
101.325
6
1
Temperature, K
Liquid
1
255.69
5
1
1889.86
6
1
853.5
1
257.37
5
1
252.18
5
1
0.45
1
255.54
5
1
8291.12
6
1
853.54
1
258.78
5
1
252.09
5
1
0.45
1
264.99
5
1
254.92
5
1
0.46
1
271.15
5
1
257.83
5
1
0.46
1
277.28
5
1
260.82
5
1
0.46
1
283.39
5
1
264.31
5
1
0.46
1
289.47
5
1
267.64
5
1
0.47
1
295.52
5
1
270.8
5
1
0.47
1
301.54
5
1
273.46
5
1
0.47
1
307.54
5
1
275.37
5
1
0.48
1
313.51
5
1
277.62
5
1
0.48
1
319.32
5
1
279.36
5
1
0.48
1
325.26
5
1
281.86
5
1
0.48
1
331.19
5
1
285.18
5
1
0.49
1
337.07
5
1
289.09
5
1
0.49
1
342.92
5
1
292.67
5
1
0.49
1
348.74
5
1
295.99
5
1
0.5
1
350.54
5
1
297.49
5
1
0.5
1
255.61
5
1
779.81
5
1
12.96
1
256.43
5
1
250.01
5
1
18.64
1
257.44
5
1
250.6
5
1
0.45
1
258.44
5
1
251.09
5
1
0.45
1
259.45
5
1
251.68
5
1
0.45
1
260.46
5
1
252.26
5
1
0.45
1
261.48
5
1
252.92
5
1
0.45
1
262.48
5
1
253.42
5
1
0.45
1
263.49
5
1
254
5
1
0.45
1
264.48
5
1
254.59
5
1
0.45
1
265.49
5
1
255.09
5
1
0.46
1
266.49
5
1
255.67
5
1
0.46
1
267.49
5
1
256
5
1
0.46
1
268.67
5
1
256.58
5
1
0.46
1
300.23
5
1
272.71
5
1
0.47
1
304.11
5
1
274.29
5
1
0.47
1
307.98
5
1
275.62
5
1
0.48
1
311.84
5
1
276.95
5
1
0.48
1
315.67
5
1
278.2
5
1
0.48
1
319.51
5
1
279.86
5
1
0.48
1
323.33
5
1
281.36
5
1
0.48
1
327.15
5
1
283.02
5
1
0.48
1
330.95
5
1
285.27
5
1
0.49
1
334.56
5
1
287.35
5
1
0.49
1
338.32
5
1
289.92
5
1
0.49
1
342.07
5
1
292.33
5
1
0.49
1
345.8
5
1
294.83
5
1
0.5
1
349.52
5
1
296.82
5
1
0.5
1
300.79
5
1
273.13
5
1
0.47
1
304.68
5
1
274.54
5
1
0.47
1
308.57
5
1
275.71
5
1
0.48
1
312.43
5
1
277.2
5
1
0.48
1
316.31
5
1
278.53
5
1
0.48
1
320.02
5
1
279.95
5
1
0.48
1
323.89
5
1
281.44
5
1
0.48
1
327.74
5
1
283.02
5
1
0.48
1
331.59
5
1
285.27
5
1
0.49
1
335.41
5
1
288.01
5
1
0.49
1
339.23
5
1
290.51
5
1
0.49
1
343.02
5
1
292.75
5
1
0.49
1
346.79
5
1
295.24
5
1
0.5
1
350.54
5
1
297.49
5
1
0.5
1
335.41
5
1
288.01
5
1
0.49