Circular of the National Bureau of Standards, Issue 440U.S. Government Printing Office, 1942 |
From inside the book
Results 1-5 of 100
Page xii
... .. 408 2. Crystal dimension .. 408 3. Volume of crystals and voids . 408 4. Weight of crystals . 409 5. Area of the crystals . 409 6. References ... 409 PART 3. - PREPARATION AND PROPERTIES OF THE SUGARS AND XII Contents.
... .. 408 2. Crystal dimension .. 408 3. Volume of crystals and voids . 408 4. Weight of crystals . 409 5. Area of the crystals . 409 6. References ... 409 PART 3. - PREPARATION AND PROPERTIES OF THE SUGARS AND XII Contents.
Page xviii
... crystals and of interstitial voids as related to sieve mesh size .. 409 50. Weight of crystals in relation to average grain size ( screen fractions ) ... 409 51. Relation between weight and surface area of crystals for various crystal ...
... crystals and of interstitial voids as related to sieve mesh size .. 409 50. Weight of crystals in relation to average grain size ( screen fractions ) ... 409 51. Relation between weight and surface area of crystals for various crystal ...
Page xix
... crystals .. 71. Crystal forms of anhydrous dextrose____ 74. Rotatory power of dextrose and corrections to be applied to sacchari- XIX Page 543 546 546 562 meter readings ......... . 562 75. Specific rotation of certain sugars at various ...
... crystals .. 71. Crystal forms of anhydrous dextrose____ 74. Rotatory power of dextrose and corrections to be applied to sacchari- XIX Page 543 546 546 562 meter readings ......... . 562 75. Specific rotation of certain sugars at various ...
Page 13
... crystal is resolved into two differently refracted beams , which on emergence are slightly separated and , ordinarily , plane polarized at right angles , except when they parallel certain unique directions in the crystals . The ...
... crystal is resolved into two differently refracted beams , which on emergence are slightly separated and , ordinarily , plane polarized at right angles , except when they parallel certain unique directions in the crystals . The ...
Page 14
... crystals . If the wave surfaces for a uniaxial crystal are actually tangent at the points of intersection with their axis of rotation , two component beams traversing the crystal parallel to this axis will possess identical velocities ...
... crystals . If the wave surfaces for a uniaxial crystal are actually tangent at the points of intersection with their axis of rotation , two component beams traversing the crystal parallel to this axis will possess identical velocities ...
Contents
445 | |
447 | |
450 | |
455 | |
461 | |
482 | |
501 | |
509 | |
56 | |
62 | |
64 | |
72 | |
90 | |
96 | |
115 | |
138 | |
145 | |
146 | |
155 | |
160 | |
162 | |
165 | |
177 | |
178 | |
190 | |
191 | |
201 | |
208 | |
217 | |
222 | |
223 | |
227 | |
232 | |
241 | |
259 | |
260 | |
269 | |
272 | |
275 | |
284 | |
295 | |
296 | |
298 | |
314 | |
316 | |
324 | |
326 | |
334 | |
336 | |
340 | |
347 | |
349 | |
350 | |
359 | |
368 | |
398 | |
400 | |
402 | |
405 | |
406 | |
408 | |
409 | |
411 | |
429 | |
430 | |
433 | |
434 | |
435 | |
436 | |
515 | |
521 | |
530 | |
534 | |
535 | |
536 | |
540 | |
541 | |
551 | |
562 | |
563 | |
584 | |
590 | |
596 | |
602 | |
608 | |
614 | |
624 | |
625 | |
627 | |
632 | |
642 | |
643 | |
644 | |
647 | |
648 | |
650 | |
652 | |
657 | |
658 | |
662 | |
663 | |
664 | |
666 | |
670 | |
671 | |
672 | |
673 | |
674 | |
676 | |
677 | |
679 | |
680 | |
683 | |
690 | |
691 | |
692 | |
694 | |
696 | |
702 | |
703 | |
704 | |
719 | |
762 | |
766 | |
767 | |
781 | |
800 | |
801 | |
810 | |
Other editions - View all
Common terms and phrases
alkaline analysis angle axis beam boiling Brix Bureau of Standards C. S. Hudson calculated carbon cell CHCl3 Chem chloride Clerget coefficient color concentration constant containing cooled copper correction crystals determined deut dextrose dilute direct polarization dissolved electrode equation evaporated filter filtrate flask formula glass glycosides grams H. S. Isbell H₂O halfshade heating hydrochloric acid hydrolysis instrument invert sugar invertase Jackson and Gillis lactose lamp lead acetate levulose measurements melting method methyl alcohol mg mg mg mixture molasses mutarotation nicol nicol prism normal weight obtained optical rotation oscillation oxide percent percentage plane polarized polariscope polarized light potassium precipitate prepared prism quantity quartz quartz control plates raffinose reaction reading reagent reducing sugars refracting saccharimeter salts sample sirup sodium specific rotation substance sucrose sucrose solutions Sugar Scale sugar solution sulfate sulfuric acid temperature tion titration tube vacuo volume washed wave length
Popular passages
Page 158 - If the analyst is in doubt as to the completion of the hydrolysis, allow a portion of the solution to remain for several hours and again polarize. If there is no change from the previous reading, the inversion is complete, and the reading and temperature of the solution should be carefully noted.
Page 181 - Titrate at once with the thiosulphate solution until the brown tinge has become weak, then add sufficient starch liquor to produce a marked blue coloration. Continue the titration cautiously until the color due to free iodin has entirely vanished.
Page 778 - After bringing the solution exactly to the mark at the proper temperature, and after wiping out the neck of the flask with filter paper, pour all of the wellshaken clarified sugar solution on a rapidly acting filter. Reject the first portions of the filtrate and use the rest, which must be perfectly clear for polarization.
Page 250 - In case the sample is too dense to determine the density directly, dilute a weighed portion with a weighed quantity of water, or dissolve a weighed portion and dilute to a known volume with water. In the first instance the per cent of total solids is calculated by the following formula : • WS Per cent of solids in the undiluted material= — • S=per cent of solids in the diluted material.
Page 789 - Receptacles — How sampled. — Sugar in hogsheads and other wooden packages shall be sampled by putting the long trier diagonally through the package from chime to chime, one trierful to constitute a sample, except in small lots, when an equal number of trierfuls shall be taken from each package to furnish the required amount of sugar necessary to make a sufficient sample. In the sampling of baskets, bags, seroons, and mats the short trier shall be used, care being exercised to have each sample...
Page 120 - Add strong ammonium hydroxide with constant stirring until the solution is alkaline to litmus, allow the precipitate to settle, and wash by decantation with water until the wash water gives only a slight test for sulfates with barium chloride solution.
Page 170 - Alkaline tartrate solution. — Dissolve 173 g of Rochelle salt and 50 g of sodium hydroxide in water, and dilute to 500 ml.
Page 155 - Defecate, if necessary, with basic lead acetate in the usual manner, making to volume at the temperature at which the observations are to be made.
Page 177 - By consulting the table it will be seen that the vertical column headed 150 is nearest to Z, 145, and the horizontal column headed 95 : 5 is nearest to the ratio of R to I, 95.1 : 4.9.
Page 783 - Inasmuch as the absorption of sea water or moisture reduces the polariscopic test of sugar, there shall be no allowance on account of increased weight of sugar importations due to unusual absorption of sea water or other moisture while on the voyage of importation.