Page:Proceedings of the Royal Society of London Vol 69.djvu/494

474 Table III KBr and KC1.

c = -0-0001488.

7-0 6-9

25ft -5

277-2

270-9

-9370

8-0

272 -6*

291 -5*

-9351

9-0

9-1

2S5-5

305-5

305-9

-9331

10-0

10-0

297-8

319-7

319-7

0-9313

11 -0

10-9

310-5

334-1

334-0

'9294

12-0

323 -0*

348 -2*

-9276

13-0

12 -9 335 -5

362-5

362-4

0-9257

14-0

13-85

347-7

377-1

376-2

-9239

Table IV. CdBr 2. 4H 2 and KN0 3.

c = 0-00148.

o

4-2

4-0

274 -0 289 -5

288 -6 -9494

4-6

278 -0* 291 -4*

-9553

5-8

6-0

288 -0 296 -0

296 -8 9701

6-6

6-87

293 -0 298 -7

299 -7 -9775

7-0

7-8

298-0 302-0

3U2 -5 -9849

8-7

303 -0* 305 -3*

-9924

10-0

9-61

308 -0 309 -3

308 -0 -9998

11-4 10-60

313-0

313-U

310-8 1 -007

The very satisfactory agreement found in the case of the above salts is of interest from the fact that the two substances are ionised in a very different degree.

Table V. m- and ^;-Oxybenzoic Acids. c = 0-00104.

0-088

-0868

286 8

300-0

300-7

-9537

0-096

-0976

2887

301 7 302 -1

-9556

0-108

291-5*

304 -1*

-95-S6

0-116

0-114

293 -2

305 -6 305 -3

9603

0-124

0-124

205 -1

306 -6

306 6

-9623

0-136

0-1396

297-5

308-0

308-3

0-9648

0-148

-1528

299-5

309-2

309-7

-9669

0-172

0-1756

303-1

311-8

312-2

-9706

0-190

305 -0*

313 -6*

-9726

0-210

0-202

307

316-0

315-0

-9746

0-220

0-206

307 -9

317-1

315-6

-9756

0-240

-2156

309-8

318-9

316-9

-9775

The preceding examples are only a few of the cases in which I have tested the validity of the relationship above stated, and, as can be seen, the agreement between theory and experiment is very satis-