Science in the Kitchen Part 41

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_RECIPES FOR COLD BEVERAGES._

BLACKBERRY BEVERAGE.--Crush a quart of fresh blackberries, and pour over them a quart of cold water; add a slice of lemon and a teaspoonful of orange water, and let it stand three or four hours. Strain through a jelly bag. Sweeten to taste with a syrup prepared by dissolving white sugar in hot water, allowing it to become cold before using. Serve at once with bits of broken ice in the gla.s.ses, or place the pitcher on ice until ready to serve.

FRUIT BEVERAGE.--A great variety of pleasant, healthful drinks may be made by taking equal quant.i.ties of water and the juice of currants, strawberries, raspberries, cherries, or a mixture of two kinds, as raspberries and currants, sweetening to taste, and putting into each gla.s.s a small lump of ice. Directions for the preparation of fruit juices will be found on page 209.

FRUIT BEVERAGE NO. 2.--Mash a pint of red raspberries, add one cup of canned pineapple or half a fresh one chopped fine; pour over all three pints of water. Stir frequently, and let the mixture stand for two hours. Strain, add the juice of six lemons, and sugar or syrup to sweeten.

ANOTHER.--Extract the juice from three lemons and as many sour oranges, add a quart of cold water, sugar or syrup to sweeten, half a teaspoonful of rose water, and a cup of pure grape juice; or the rose water and grape juice may be omitted and two tablespoonfuls of strawberry, raspberry, or cherry juice used instead, and the whole poured over half a dozen slices of pineapple, and allowed to stand until well flavored before using.

FRUIT CORDIAL.--Crush a pint of blackberries, raspberries, grapes, currants, or cherries, adding the juice of two sour oranges, and a sliced lemon; pour over all a quart of cold water. Stir the mixture frequently and let it stand for two hours, then strain and add a syrup made by dissolving white sugar in boiling water, sufficient to sweeten.

Cool on ice and serve.

GRAPE BEVERAGE.--Crush two pounds of perfectly ripened purple grapes and strain the juice through a jelly bag. Add to the juice three tablespoonfuls of granulated sugar or syrup, and dilute with cold water to suit the taste.

LEMONADE.--Use three large or four medium-sized lemons for each quart of water, and from six to eight tablespoonfuls of sugar. Rub or squeeze the lemons till soft. Cut a slice or two from each, and extract the juice with a lemon drill; strain the juice through a fine wire strainer to remove the seeds and bits of pulp, and pour it over the sugar. Add the slices of lemon, and pour over all a very little boiling water to thoroughly dissolve the sugar; let it stand ten or fifteen minutes, then add the necessary quant.i.ty of cold water, and serve. Or rub the sugar over the outside of the lemons to flavor it, and make it into a syrup by adding sufficient boiling water to dissolve it. Extract and strain the lemon juice, add the prepared syrup and the requisite quant.i.ty of cold water, and serve.

MIXED LEMONADE.--A very pleasant, cooling summer drink is made from the juice of six oranges and six lemons, with sugar to taste; add to this some pounded ice and the juice of a small can of pineapple, and lastly pour over the whole two quarts of water.

OATMEAL DRINK.--Boil one fourth of a pound of oatmeal in three quarts of water for half an hour, then add one and one half tablespoonfuls of sugar, strain and cool. It may be flavored with a little lemon or raspberry syrup if desired; or the sugar may be omitted and a quart of milk added. Cool on ice and serve.

ORANGEADE.--Pare very thin from one orange a few bits of the yellow rind. Slice three well-peeled sour oranges, taking care to remove all the white portion and all seeds. Add the yellow rind and a tablespoonful of sugar; pour over all a quart of boiling water. Cover the dish, and let it remain until the drink is cold. Or, if preferred, the juice of the oranges may be extracted with a lemon drill and strained as for lemonade.

PINEAPPLE BEVERAGE.--Pare and chop quite fine one fresh pineapple; add a slice or two of lemon, and cover with three pints of boiling water. Let it stand for two hours or more, stirring frequently; then strain and add the juice of five lemons, and sugar or syrup to sweeten.

PINEAPPLE LEMONADE.--Lemonade made in the usual manner and flavored with a few spoonfuls of canned pineapple juice, is excellent for variety.

PINK LEMONADE.--Add to a pint of lemonade prepared in the usual manner half a cup of fresh or canned strawberry, red raspberry, currant, or cranberry juice. It gives a pretty color besides adding a pleasing flavor.

SHERBET.--Mash a quart of red raspberries, currants, or strawberries, add the juice of a lemon, and pour over all three pints of cold water. Stir frequently, and let it stand for two or three hours.

Strain through a jelly bag, sweeten to taste, and serve.

TISANE.--This is a favorite French beverage, and is prepared by chopping fine a cupful of dried fruits, such as prunes, figs, or prunelles, and steeping for an hour in a quart of water, afterward straining, sweetening to taste, and cooling on ice before using.

TABLE TOPICS.

The nervousness and peevishness of our times are chiefly attributable to tea and coffee. The digestive organs of confirmed coffee drinkers are in a state of chronic derangement which reacts on the brain, producing fretful and lachrymose moods. The snappish, petulant humor of the Chinese can certainly be ascribed to their immoderate fondness for tea.--_Dr. Bock._

Dr. Ferguson, an eminent physician who has carefully investigated the influence of tea and coffee upon the health and development of children, says he found that children who were allowed these beverages gained but four pounds a year between the ages of thirteen and sixteen, while those who had been allowed milk instead, gained fifteen pounds in weight during the same period.

Dr. Richardson, the eminent English physician and scientist, a.s.serts that the misery of the women of the poorer cla.s.ses of the population in England is more than doubled by the use of tea, which only soothes or stimulates to intensify the after-coming depression and languor.

A physician recommended a lady to abandon the use of tea and coffee.

"O, but I shall miss it so," said she.

"Very likely," replied her medical adviser, "but you are missing health now, and will soon lose it altogether if you do not."

Dr. Stenhouse, of Liverpool, once made a careful a.n.a.lysis of a sample package of black tea, which was found to contain "some pure Congo tea leaves, also siftings of Pekoe and inferior kinds, weighing together twenty-seven per cent of the whole. The remaining seventy-three per cent was composed of the following substances; Iron, plumbago, chalk, China-clay, sand, Prussian-blue, tumeric, indigo, starch, gypsum, catechu, gum, the leaves of the camelia, sarangna, _Chlorantes officinalis_, elm, oak, willow, poplar, elder, beach, hawthorn, and sloe."

MILK CREAM b.u.t.tER

MILK.

Chemically considered, the const.i.tuents of milk are nitrogenous matter (consisting of casein and a small proportion of alb.u.men), fat, sugar of milk, mineral matter, and water, the last const.i.tuting from sixty-five to ninety per cent of the whole.

The proportion of these elements varies greatly in the milk of different animals of the same species and of the same animals at different times, so that it is not possible to give an exact a.n.a.lysis.

The a.n.a.lysis of an average specimen of cow's milk, according to Letheby, is:--

Nitrogenous matter.......................................4.1 Fat......................................................3.9 Sugar of milk............................................5.2 Mineral matter...........................................0.8 Water...................................................86.0

If a drop of milk be examined with a microscope, it will be seen as a clear liquid, holding in suspension a large number of minute globules, which give the milk its opacity or white color. These microscopic globules are composed of fatty matter, each surrounded by an envelope of casein, the princ.i.p.al nitrogenous element found in milk. They are lighter than the surrounding liquid, and when the milk remains at rest, they gradually rise to the top and form cream. Casein, unlike alb.u.men, is not coagulated by heat; hence when milk is cooked, it undergoes no noticeable change, save the coagulation of the very small amount of alb.u.men it contains, which, as it solidifies, rises to the top, carrying with it a small portion of the sugar and saline matter and some of the fat globules, forming a skin-like sc.u.m upon the surface. Casein, although not coagulable by heat, is coagulated by the introduction into the milk of acids or extract of rennet. The curd of cheese is coagulated casein. When milk is allowed to stand for some time exposed to warmth and air, a spontaneous coagulation occurs, caused by fermentative changes in the sugar of milk, by which it is converted into lactic acid through the action of germs.

Milk is sometimes adulterated by water, the removal of more or less of the cream, or the addition of some foreign substance to increase its density.

The quality of milk is more or less influenced by the food upon which the animal is fed. Watery milk may be produced by feeding a cow upon sloppy food.

The milk of diseased animals should never be used for food. There is no way by which such milk can invariably be detected, but Prof. Vaughan, of Michigan University, notes the following kinds of milk to be avoided:

1. Milk which becomes sour and curdles within a few hours after it has been drawn, and before any cream forms on its surface. This is known in some sections as 'curdly' milk, and it comes from cows with certain inflammatory affections of the udder, or digestive diseases, or those which have been overdriven or worried.

2. "Bitter-sweet milk" has cream of a bitter taste, is covered with 'blisters,' and frequently with a fine mold. b.u.t.ter and cheese made from such milk cannot be eaten on account of the disagreeable taste.

3. 'Slimy milk' can be drawn out into fine, ropy fibers. It has an unpleasant taste, which is most marked in the cream. The causes which lead to the secretion of this milk are not known.

4. 'Blue milk' is characterized by the appearance on its surface, eighteen or twenty-four hours after it is drawn, of small, indigo-blue spots, which rapidly enlarge until the whole surface is covered with a blue film. If the milk be allowed to stand a few days, the blue is converted into a greenish or reddish color. This coloration of the milk is due to the growth of microscopic organisms. The b.u.t.ter made from 'blue milk' is dirty-white, gelatinous, and bitter.

5. 'Barnyard milk' is a term used to designate milk taken from unclean animals, or those which have been kept in filthy, unventilated stables.

The milk absorbs and carries the odors, which are often plainly perceptible. Such milk may not be poisonous, but it is repulsive.

There is no doubt that milk often serves as the vehicle for the distribution of the germs of various contagious diseases, like scarlet fever, diphtheria, and typhoid fever, from becoming contaminated in some way, either from the hands of milkers or from water used as an adulterant or in cleansing the milk vessels. Recent investigations have also shown that cows are to some extent subject to scarlet fever, the same as human beings, and that milk from infected cows will produce the same disease in the consumer.

Milk should not be kept in bra.s.s or copper vessels or in earthen-ware lined with lead glazing; for if the milk becomes acid, it is likely to unite with the metal and form a poisonous compound. Gla.s.s and granite ware are better materials in which to keep milk.

Milk should never be allowed to stand uncovered in an occupied room, especially a sitting-room or bedroom, as its dust is likely to contain disease-germs, which falling into the milk, may become a source of serious illness to the consumer. Indeed it is safest to keep milk covered whenever set away, to exclude the germs which are at all times present in the air. A good way is to protect the dishes containing milk with several layers of cheese-cloth, which will permit the air but not the germs to circulate in and out of the pans. Neither should it be allowed to stand where there are strong odors, as it readily takes up by absorption any odors to which it is exposed.

A few years ago Dr. Dougall, of Glasgow, made some very interesting experiments on the absorbent properties of milk. He inclosed in jars a portion of substances giving off emanations, with a uniform quant.i.ty of milk, in separate vessels, for a period of eight hours, at the end of which time samples of the milk were drawn off and tested. The result was that milk exposed to the following substances retained odors as described:--

Coal gas, distinct; paraffine oil, strong; turpentine, very strong; onions, very strong; tobacco smoke, very strong; ammonia, moderate; musk, faint; asafetida, distinct; creosote, strong; cheese (stale), distinct; chloroform, moderate; putrid fish, very bad; camphor, moderate; decayed cabbage, distinct.

These facts clearly indicate that if the emanations to which milk is exposed are of a diseased and dangerous quality, it is all but impossible that the milk can remain free from dangerous properties.

Too much pains cannot be taken in the care of milk and vessels containing it. Contact with the smallest quant.i.ty of milk which has undergone fermentation will sour the whole; hence the necessity for scrupulous cleanliness of all vessels which have contained milk before they are used again for that purpose.

Science in the Kitchen Part 41

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Science in the Kitchen Part 41 summary

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