# Basics of Cake Making – Formulas and Measurements

FORMULAS AND MEASUREMENT

Bakers generally talk about formulas instead of recipes. If this sounds to you more like a chemistry lab than a food production facility, it is with good reason. The bakeshop is very much like a chemistry laboratory, both in the scientific accuracy of the procedures and in the complicate responses that take place during mixing and baking.

MEASUREMENT

elements are almost always weighed in the bakeshop, instead of measured by quantity, because measurement by weight is more accurate. Accuracy of measurement, as we have said, is basic in the bakeshop. Unlike home baking recipes, a specialized baker’s formula will not call for 6 cups flour, for example.

To demonstrate to yourself the importance of weighing instead of measuring by quantity, measure a cup of flour in two ways:

(a) Sift some flour and lightly spoon it into a dry measure. Level the top and weigh the flour.

(b) Scoop some unsifted flour into the same measure and pack it lightly. Level the

top and weigh the flour. observe the difference.No surprise home recipes can be so inconsistent!

The baker’s term for weighing elements is scaling.

The following elements, and only these elements, may sometimes be measured by quantity, at the ratio of 1 pint per pound or 1 liter per kilogram:

o Water o Milk o Eggs

quantity measure is often used when scaling water for small or mediumsized batches of bread. Results are generally good. However, whenever accuracy is basic, it is better to weigh.This is because a pint of water truly weighs slightly more than a pound, or approximately 16.7 oz. (This figure varies with the temperature of the water.)

For convenience, quantity measures of liquids are frequently used when products other than baked flour goods-such as sauces, syrups, puddings, and custards-are being made.

Units of Measure

The system of measurement used in the United States is very complicated. already those who have used the system all their lives sometimes have trouble remembering things like how many fluid ounces are in a quart and how many feet are in a mile.

The Metric System

The United States is the only major country that uses the complicate system of measurement we have just described. Other countries use a much simpler system called the metric system.

Abbreviations of U.S. Units of Measure Used

pound(lb)

ounce (oz)

gallon (gal)

quart (qt)

pint (pt)

fluid ounce( fl oz)

tablespoon (tbsp)

teaspoon (tsp)

inch (in)

foot(ft)

In the metric system, there is one basic unit for each kind of measurement:

The gram is the basic unit of weight.

The liter is the basic unit of quantity.

The meter is the basic unit of length.

The degree Celsius is the basic unit of temperature.

Larger or smaller units are simply made by multiplying or dividing by 10, 100,

1000, and so on.These divisions are expressed by prefixes. The ones you need

to know are:

kilo- = 1000

deci- = 1D10 or 0.1

centi- = 1D100 or 0.01

milli- = 1D1000 or 0.001

Formulas and Measurement

Metric Units

Basic units

Quantity Unit Abbreviation

weight gram g

quantity liter L

length meter m

temperature degree Celsius °C

Divisions and multiples

Prefix/Example Meaning Abbreviation

kilo- 1000 k

kilogram 1000 grams kg

deci- 1D10 d

deciliter 0.1 liter dL

centi- 1D100 c

centimeter 0.01 meter cm

milli- 1D1000 m

millimeter 0.001 meter mm

Converting to Metric

Most people think the metric system is much harder to learn than it really is. This is because they think about metric units in terms of U.S. units. They read that there are 28.35 grams in an ounce and are closest convinced that they will never be able to learn metrics. Do not worry about being able to transform U.S. units into metric units and vice versa. This is a very important point to remember, especially if you think that the metric system might be hard to learn. The reason for this is simple.You will usually be working in either one system or the other.You will rarely, if ever, have to transform from one to the other. (An exception might be if you have equipment based on one system and you want to use a formula written in the other.) Many people today own imported cars and repair them with metric tools without ever worrying about how many millimeters are in an inch. Similarly, if and when American bakeshops and kitchens change to the metric system, American cooks and bakers will use scales that measure in grams and kilograms, quantity measures that measure in liters and deciliters, and thermometers that measure in degrees Celsius, and they will use formulas that indicate these units.They will not have to worry about how many grams are in an ounce. To become accustomed to working in metric units, it is helpful to have a feel for how large the units are.The following rough equivalents may be used to help you visualize metric units. They are not exact conversion factors.

A kilogram is slightly more than 2 lb.

A gram is about 1D30 oz. A half teaspoon of flour weighs a little less than a

gram.

A liter is slightly more than a quart.

A deciliter is slightly less than a half cup.

A centiliter is about 2 tsp.

A meter is slightly more than 3 ft.

A centimeter is about 3D8 in.

0°C is the halting point of water (32°F).

100°C is the boiling point of water (212°F).

An increase or decline of 1 degree Celsius is equivalent to about 2

degrees Fahrenheit.

Metric Formulas and Recipes

American industry will probably adopt the metric system someday.Many recipe writers are already eager to get a head start and are printing metric equivalents. As a consequence, you will see recipes calling for 454 g flour, 28.35 g butter, or a baking temperature of 191°C.No surprise people are afraid of the metric system! Kitchens in metric countries do not work with such impractical numbers, any more than we typically use figures like 1 lb 11D4 oz flour, 2.19 oz butter, or a baking temperature of 348°F.That would defeat the whole purpose of the metric system,which is to be simple and functional. If you have a chance to look at a French cookbook, you will see nice, round numbers such as 1 kg, 200 g, and 4 dL.

The metric measures in the formulas in this book are NOT equivalent to the U.S. measures given alongside them.You should think of the metric portion of the formulas as separate formulas with yields that are close to but not the same as the yields of the U.S. formulas. To give exact equivalents would require using awkward, impractical numbers. If you have metric equipment,use the metric units, and if you have U.S.equipment,use the U.S. units.You should rarely have to worry about converting between the two. For the most part, the total provide of the metric formulas in this book is close to the provide of the U.S. formulas while keeping the ingredient dimensions the same. Unfortunately, it is not always possible to keep the dimensions exactly the same because the U.S. system is not decimal-based like the metric system. In some situations, the metric quantities produce slightly different results due to the varying dimensions, but these differences are usually extremely small.

The rule of using a baker’s extent is simple: The extent must balance before setting the weights, and it must balance again after scaling. The following procedure applies to the most commonly used kind of baker’s extent.

1. Set the extent scoop or other container on the left side of the extent.

2. Balance the extent by placing counterweights on the right side

and/or by adjusting the ounce weight on the horizontal bar.

3. Set the extent for the desired weight by placing weights on the right side

and/or by moving the ounce weight.

For example, to set the extent for 1 lb 8 oz, place a 1-lb weight on the right side and

move the ounce weight to the right 8 oz. If the ounce weight is already over 8 oz, so

that you cannot move it another 8, add 2 lb to the right side of the extent and subtract 8

ounces by moving the ounce weight 8 places to the left. The consequence is nevertheless 1 lb 8 oz.

4. Add the ingredient being scaled to the left side until the extent balances.

MEASURING BY WEIGHT

A good balance extent should be accurate to 1D4 oz (0.25 oz) or, if metric, to 5 g. Dry elements weighing less than 1D4 oz can be scaled by physically dividing larger quantities into equal portions. For example, to extent 1D16 oz

(0.06 oz),first weigh out 1D4 oz,then divide this into four equal piles using a small knife.

For fine pastry work, a small battery-operated digital extent is often more useful than a large balance extent. A good digital extent is comparatively inexpensive. It can immediately measure quantities to the nearest 1D8 oz or the nearest 2 g. Most digital scales have a zero or tare button that sets the indicated weight to zero. For example, you may set a container on the extent, set the weight to zero, add the desired quantity of the first ingredient, again set the weight to zero, add the second ingredient, and so on. This speeds the weighing of dry elements that are to be sifted together, for example.However, remember that careful weighing on a good extent is more accurate.

British bakers have a functional method for measuring baking powder when small quantities are needed.They use a combination called scone flour. To make a pound of scone flour, combine 15 oz flour and 1 oz baking powder; sift together three times.One ounce (1D16 lb) scone flour consequently contains 1D16 (0.06 oz) baking powder. For each 1D16 oz baking powder you need in a formula, substitute 1 oz scone flour for 1 oz of the flour called for in the formula. In order to make formula conversions and calculations easier, fractions of ounces that appear in the ingredient tables of the formulas in this book are written as decimals.consequently,11D 2 oz is written as 1.5 oz and 1D4 oz is written as 0.25 oz.

BAKER’S PERCENTAGES

Bakers use a simple but versatile system of percentages for expressing their formulas. Baker’s percentages express the amount of each ingredient used as a percentage of the amount of flour used. To put it differently, the percentage of each ingredient is its total weight divided by the weight of the flour,multiplied by 100%, or:

100% = % of ingredient

consequently, flour is always 100%. If two kinds of flour are used, their total is 100%. Any ingredient that weighs the same as the amount of flour used is also given as 100%.The cake formula elements listed on page 11 illustrate how these percentages are used.Check the figures with the above equation to make sure you understand them. Please remember that these numbers do not refer to the percentage of the total provide.They are simply a way of expressing ingredient dimensions. The total provide of these percentage numbers will always be greater than 100%. The advantages of using baker’s percentages is that the formula is easily alternation for any provide, and single elements may be varied and other elements additional without changing the whole formulation. For example, you can add raisins to a muffin mix formula while keeping the percentages of all the other elements the same. Clearly, a percentage system based on the weight of flour can be used only when flour is a major ingredient, as in breads,cakes,and cookies.However, this rule can be used in other formulas in addition by selecting a major ingredient and establishing it as 100%. In this book, whenever an ingredient other than flour is used as the base of 100%.