32 Prof. Loomis’s Remarks upon Prof. Everett’s Article. 
eat : 4 - u 
Sei s S : : 3s s 
ieee oe ee eee oar ee ee oe 
Reif) 2) ete e432 eS eel Pe te 
i) ee ee ee eee ee 
° ° ° (e] ° ° fe} io} 
1 | 365 | 37°2 | for | 436 | 500 | 56-4 | 61-5 | 62°5 | 58°8 | 53°5 | 46-4 | 417 
2| 36°4! 37:0 | foro | 44°¢ | 505 | 56°6 | 61-4 | 62:3 | 58-6 | 53-4 | 46-2 | 41°8 
3} 364 | 37-3 | 399 | 44:5 | 50-9 8 | 61°4 | 62°2 | 58-5 | 53-1 | 46-1 | 41-7 
4 3) 37-7 | 397g | 448 | 51-3 | 571 | 6 621 | 58:4 | 53-0 | 45-9 | 41-5 
2S ‘'t | 38-4 | Zoro | 45°1 | 51°6 | 57-1 | 61 62°0 | 58-2 | 52-8 | 45-7 | 414 
6 0 | 390 | for | 45°4 | 51°8 | 57°2 | 61-7 | 62-0 | 58-0 | 52-5 | 45-5 | fat 
4; ‘8 | 39:2 |. 4o'1 | 45:5 3 57:3 | 61-8 | 620 | 57-8 | 52-3 | 45+1 | 40°7 
8 "5 | 39:2 | fors | 45:5 | 51-8 | 57°4 | 61-7 | 62-0 | 57-7 | 52-1 | 44:8 | 40°6 
9 ‘4 ro | 4o'2 | 45°4 | 51 6 | 57°5 | 61-5 | 61-9 | 57-6 | 51-9 | 44°5 | 40°5 
10 9 | 38-7 | go3 | 451 | Sag | 57-7 | 61-5 | 61-8 | 57-5 | 51-7 | 44-3 | fog 
II “6 5 | 4o°5 | 45-0 | 51°3 | 58-0 | 61-6 | 61-7 | 57-4 | 51-4 -o | 4o°2 
12 6 3 | 406 | 44-9 | 51°3 | 58-3 | 61-7 | 61-6 | 57:3 | 51-0 | 43-9 | foro 
13 “6 “2 | 41-0 | 45:2 | 5°4 | 58°5 | 61°8 | 61-5 2 | 50-5 Be 39'6 
14 6 © | 41-3 | 45°5 | 508 | 58:8 | 61-7 | 615 | 57-0 | 50-1 | 43°3 | 39°7 
15 | 355 | 38-1 | 41-5 | 457 | 52°2 | 59:0 | 61-7 | 61°4 | 56-7 | 49°8 |.43 0 | 40-0 
16 “5 *t | 41-7 | 46-0 | 52°6 | 59:3 | 61-7 | 61°4 | 565 | 49°6 | 42°6 | 403 
17 9 2 | 41-8 | 46-2 | 52°8 | 59 4 | 61-7 | 613 | 56-3 | 49:4 | 42-4 | fort 
18 3 | 41-8 | 46-4 1531 | 595 | 61-7 | 610 | 56-0 | 49°2 | 42-2 | 39 
19 ‘5 | 38-4 | 41-8 | 465 | 53:3 | 596 | 61-7 | 609 | 55-9 | 4g't | 42-2 | 39 
20 8 5 | 41-9 | 46-7 | 536 | 59°8 | 61-6 | 60°8 | 556 | 4g°1 | 42-2 | 3g-o 
2t | 371 | 38-5 | 41-9 | 47°0 | 53-8 | 599 | 61-5 | 60°6 | 55°5 | 48-9 | 42°0 | 38-4 
92 | 37°3 6 | 41.9 | 47°5 | 54:1 | Goro | 61-5 | 60°4 | 554 | 48-6 | 41-7 | 37°9 
a5 1 379 rg | 42-0 | 47°6 | 54-3 | 6Go:2 | 61-5 | 60-3 | 55:3 | 48-3 | 41°4 | 37°4 
24 | 37°8 | 39:1 | 42°1 | 47°6 | 54-4 | 60°4 | 61-6 | 60°3 | 55-0 | 47°9 | 41°0 | 37°0 
25 | 38-0 | 39°5 | 42°2 | 47°6 | 54-6 | 60°6 | 61-8 | 60°2 | 54:9 | 47°5 | 408 | 365 
26 | 38-3 | 39°7 | 42°3 | 476 | 54-7 | G08 | 6a1 | 599 | 54-7 | 47°4 | 4o°g | 36:4 
27 | 38:3 | 39°8 | 42°4 | 48-0 | 549 | Gr-o | 62-3 | 59-7 | 54°5 | 47-2 | 41-1 | 36°5 
28 | 38:1 | 4o-o | 426 | 48:5 | 55-2 | 613 | 625 | 5q°6 | 54-3 | 47-0 | 41°5 | 37°0 
29 | 37-9 42°8 | 4g't | 554 | 61-5 | 62-5 | 594 | 54:0 | 46°8 | 41°6 | 373 
30 | 37-6 43-0 | 495 | 55-7 | 61°5 | 62-5 | S5qr1 46°6 | 41-6 | 37°4 
Si 3e3 43°4 6:1 62°5 | 5g 46°5 376 
From this Table we perceive that the maximum: temperature 
occurs on the 30th of July. The minimum occurs sometime 
between Jan. 9th and 15th; we will call it Jan. 12th. The in- 
_ days; that is, the first pepeiple assumed by Prof. Everett is in 
error by more than a m 
Tn order to datutncan whether the curve is symmetrically di- 
vided at the point of maximum temperature, I will compare the 
temperatures for 30, 60 and 90 days before and after Ju y 30tb. 
The results are as follows: 
June 30, 6175 Aug. 29, 59°4 Difference — 2°1 
May 31, 656°1 Sept.28, 54° . —1°'8 
May 1, 50°0 Oct. 28, 47-0 Ege a be. 
Thus we see that the fomnperatanes. & for 90 days before and 90 
days after the maximum, instead of peing sane , as they should — 
be according to the assumption of Prof. _ differ by three — 
degrees; which is one ninth part of the entire annual range. 
