Household Arithmetic |
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Page 196
... COMPOUND INTEREST FROM 1 TO 25 YEARS Years 123456780 32 % 4 % 42 % 1.035000 1.040000 1.045000 1.071225 1.081600 1.092025 1.108718 1.124864 1.141166 1.147523 1.169859 1.192519 1.187686 1.216653 1.246182 1.229255 1.265319 1.302260 5 % 52 ...
... COMPOUND INTEREST FROM 1 TO 25 YEARS Years 123456780 32 % 4 % 42 % 1.035000 1.040000 1.045000 1.071225 1.081600 1.092025 1.108718 1.124864 1.141166 1.147523 1.169859 1.192519 1.187686 1.216653 1.246182 1.229255 1.265319 1.302260 5 % 52 ...
Page 197
... compound interest . What did it amount to when she was 21 years old ? From the compound interest table on page 196 it will be seen that $ 1 amounts to $ 2.025817 in 18 years . Hence $ 500 will amount to 500 X $ 2.025817 or $ 1012.91 ...
... compound interest . What did it amount to when she was 21 years old ? From the compound interest table on page 196 it will be seen that $ 1 amounts to $ 2.025817 in 18 years . Hence $ 500 will amount to 500 X $ 2.025817 or $ 1012.91 ...
Page 198
... interest , com- pounded annually , how much money would she have at the end of 5 years ? 2. Helen's chum wants to buy a $ 50 bond . If she can put 25 cents a week into a savings bank that pays 42 per cent . interest , compounded ...
... interest , com- pounded annually , how much money would she have at the end of 5 years ? 2. Helen's chum wants to buy a $ 50 bond . If she can put 25 cents a week into a savings bank that pays 42 per cent . interest , compounded ...
Page 199
... compound interest , how much more will he have to save annually to provide another $ 5000 by the end of 20 years ? POSTAL SAVINGS DEPOSITS The postal savings system of the United States is in operation in a large number of post offices ...
... compound interest , how much more will he have to save annually to provide another $ 5000 by the end of 20 years ? POSTAL SAVINGS DEPOSITS The postal savings system of the United States is in operation in a large number of post offices ...
Page 200
... interest on April 1 , 1915 ? 8. If $ 1 is deposited each month for three years , what will be the amount of ... compound interest . EXERCISE IV Problem . - Find the balance due Jan. 1 , 1913 , on the following savings bank account : Mrs ...
... interest on April 1 , 1915 ? 8. If $ 1 is deposited each month for three years , what will be the amount of ... compound interest . EXERCISE IV Problem . - Find the balance due Jan. 1 , 1913 , on the following savings bank account : Mrs ...
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Household Arithmetic Katharine Frances 1877- Ball,Miriam E Joint Author West No preview available - 2015 |
Common terms and phrases
100-Calorie portion 25 cents 50 cents allowance Apples average Baked baking powder beans Beef bias strip bonds borrow Bread budget building and loan butter Calories yielded candle power Car fare carbohydrates cents a yard cents per 1000 cheese clothing compound interest crackers cream deposited dozen dress dried eggs endowment policy Estimate the cost EXERCISE expenditures Find the cost Find the number floor flour food materials fuel value georgette crepe girl grams inches wide investment kilogram Laundry length linoleum loan association measures milk month mortgage needed number of Calories number of yards Oleomargarine olive oil ounces paid phosphorus Potatoes premium protein purchased rate of interest recipe recreation Rice roll Rolled oats ruffle saving in buying savings bank shredded wheat skirt slices spool sugar total number tucks week weight width
Popular passages
Page 189 - SQUARE MEASURE 144 square inches (sq. in.) = 1 square foot (sq. ft.) 9 square feet — 1 square yard (sq. yd.) 30^ square yards = 1 square rod (sq. rd.) 160 square rods = 1 acre (A.) 640 acres = 1 square mile (sq.
Page 189 - Measures of Length 10 millimeters (mm.) = 1 centimeter (cm.) 10 centimeters = 1 decimeter (dm.) 10 decimeters = 1 meter (m.) 10 meters = 1 dekameter (Dm.) 10 dekameters = 1 hektometer (Hm.) 10 hektometers = 1 kilometer (Km.) 10 kilometers = 1 myriameter (Mm.) Measures of Surface 100 sq.
Page 177 - In some fruits, as oranges and prunes, the amount rejected in eating is practically the same as refuse. In others, as apples and pears, more or less of the edible material is ordinarily rejected with the skin and seeds and other inedible portions. The edible material which is thus thrown away, and should properly be classed with the waste, is here classed with the refuse. The figures for refuse here given represent, as nearly a3 can be ascertained, the quantities ordinarily rejected.
Page 255 - In any proportion, the product of the means is equal to the product of the extremes.
Page 189 - Liquid Measure 4 gills (gi.) = 1 pint (pt.) 2 pints = 1 quart (qt...
Page 178 - The average of five analyses of cereal coffee grain is: Water 6.2 protein 13.3, fat 3.4, carbohydrates 72.6, and ash 4.5 per cent. Only a portion of the nutrients, however, enter into the infusion. The average in the table represents the available nutrients in the beverage. Infusions of genuine coffee and of tea like the above contain practically no nutrients.
Page 190 - MEASURES OF WEIGHT 10 milligrams (mg.) = 1 centigram eg. 10 centigrams =1 decigram dg. 10 decigrams =1 gram g. 10 grams =1 decagram Dg. 10 decagrams =1 hectogram Hg. 10 hectograms = 1 kilogram Kg.
Page 238 - ... National City Bank of New York, said: In the group of great industrial nations there has come forward in recent years one that has taken a place in the very front rank among industrial competitors. That nation is Germany. Her people have lacked the peculiar 1 " Case and Comment," Sept., 1913, p. 234. EDUCATION INCREASES PRODUCTIVE, POWER. MASSACHUSETTS GAVE HER CITIZENS 7 YEARS...
Page 177 - Such vegetables as potatoes, squash, beets, etc., have a certain amount of inedible material, skin, seeds, etc. The amount varies with the method of preparing the vegetables, and cannot be accurately estimated. The figures given for refuse of vegetables, fruits, etc., are assumed to represent approximately the amount of refuse in these foods as ordinarily prepared.
Page 177 - Fruits contain a certain proportion of inedible materials, as skin, seeds, etc., which are properly classed as refuse. In some fruits, as oranges and prunes, the amount rejected in eating is practically the same as refuse. In others, as apples and pears, more or less of the edible material is ordinarily rejected with the skin and seeds and other inedible portions. The edible material which is thus thrown away, and should properly be classed with the waste, is here classed with the refuse. The figures...