Cooking for Geeks: Real Science, Great Hacks, and Good Food (46 page)

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Authors: Jeff Potter

Tags: #COOKING / Methods / General

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Pizza Dough — No-Knead Method

This makes enough dough for one medium-sized pizza with the crust rolled thin. You’ll probably want to multiply these quantities by the number of people you’re cooking for.

Weigh into a large bowl or plastic container:

  • 1 ⅓ cups (170g) flour
  • 1 teaspoon (5g) salt
  • 1 tablespoon (10g) instant yeast

Using a spoon, mix together so that the salt is thoroughly distributed. Add:

  • ½ cup (120g) water

Mix in the water using the spoon so that the flour and water are incorporated.

Let rest on counter for at least four hours, preferably longer. You can mix the ingredients together at breakfast time (for example, before running off to that day job at Initech or wherever) and the dough will be ready by the time you get home. It’s the same principle as the no-knead bread: the glutenin and gliadin proteins will slowly crosslink on their own.

You can cut and serve pizza directly off the peel. If you don’t have a pizza peel, you can use a piece of cardboard to slip a pizza into and out of the oven.

Notes

  • I have a confession to make: when it comes to pizza dough, I’m lazy and don’t worry about exact hydration levels, proper kneading method, ideal rest times, and controlling temperature to generate the ideal flavor.
  • If you want to experiment, order some sourdough yeast culture (which is actually a culture of both the well-known sourdough strain of yeast and the bacteria
    lactobacillus).
    The ratio of yeast to bacteria in the dough will impact the flavor. You can control that ratio by letting the dough mature for some amount of time in the fridge, where yeast will multiply but bacteria won’t; and some amount of time at room temperature, where the bacteria will contribute flavors. If you want to explore these variables, read Jeff Varasano’s web page on pizza — see the interview with him in
    Jeff Varasano on Pizza
    for details.
Chemical Leaveners

While yeast allows for the creation of many delicious foods, it has two potential drawbacks: time and flavor. Commercial bakers with high volumes and those of us with limited time to play in the kitchen can’t always afford to wait for yeast to do its thing. Then there’re the flavors and aromas generated by yeast, which would clash with the flavors in something like a chocolate cake. Chemical leaveners have neither of these problems.

Chemical leaveners are divided into two categories:

Baking soda
A bicarbonate (HCO
3

) that’s bound with another molecule — typically sodium, but sometimes potassium and ammonium. When added to water, the bicarbonate dissolves and is able to react with acids to generate CO
2
.
Baking powder
A self-contained leavening system that generates carbon dioxide in the presence of water. Baking powders by definition contain a baking soda and acids for that baking soda to react with.

The idea that these are categories, not single ingredients, is probably foreign to most home cooks, but the chemicals that make up a baking powder or baking soda can vary. Industrial food manufacturers use different compositions and particulate sizes depending upon the food being produced.

Baking Soda

Anyone who’s done the third-grade science fair project using vinegar and baking soda to make a volcano can tell you that baking soda can generate a whole lot of gas really quickly. But in the kitchen, baking soda remains one of the bigger mysteries. How is it different from baking powder? And how do you know which one to use?

The quick answer would go something like: “Baking soda reacts with acid, so only use it when your ingredients are acidic.” And as simple explanations go, this covers you 99% of the time when cooking. But baking soda is a little more complicated and interesting in a geeky way, so it’s worth a brief digression into the chemistry. I promise this’ll be short.

The baking soda you buy in the store is a specific chemical: sodium bicarbonate, NaHCO
3
. Unlike baking powder, which is a blend of chemicals that are self-contained (“just add water and heat!”), when added to a dish, sodium bicarbonate needs something to react with in order to generate gas.

Always
sift dry ingredients together before adding in wet ingredients to make sure any salt, baking soda, or baking powder are truly dispersed. You can use a strainer over a bowl as a sifter or even just mix the ingredients with a wire whisk or a fork.

Without something for sodium bicarbonate to dissolve into, it’s an inert white powder. Upon getting wet — any moisture in any food will do — the sodium bicarbonate dissolves, meaning that the sodium ions are free to run around separately from the bicarbonate ions.

Note

The sodium is just there to transport the bicarbonate to your food; we can ignore it once it’s dissolved. The sodium does make the food slightly saltier, incidentally, which is why industrial food manufacturers will sometimes use things like potassium bicarbonate: potassium is good for you, and this avoids the sodium for people on a low-sodium diet.

Most of us are familiar with the pH scale (the H stands for hydrogen; it’s unclear what the p stands for, “power” and “potential” are the best guesses). The pH scale is a measure of the amount of available hydrogen ions in a solution. Chemicals that affect the number of hydrogen ions can be classified in one of two ways:

Acids (pH below 7)
Proton donors; i.e., chemicals that increase the number of hydronium ions (H
3
O
+
; the hydrogen binds with a water molecule) in the solution
Bases (pH above 7)
Proton receivers; i.e., chemicals that bind with hydronium ions, reducing their available concentration in a solution

When it comes to pH, a bicarbonate ion has an interesting property that chemists call
amphotericity
: it can react with either an acid or a base. In the kitchen, so few things are actually basic — egg whites, baking soda, maybe the stuff in your fire extinguisher, and that’s pretty much it — that you can safely ignore baking soda’s ability to react with bases and just think of it as something that reacts with acids. Still, to understand baking soda, it’s important to understand that bicarbonates react with other compounds and either raise the pH by reducing the amount of available acids or lower the pH by reducing the amount of available bases.

This phenomenon is called
buffering
: a
buffer
is something that stabilizes the pH level of a solution. Buffers hang out in the solution and, when an acid or base is added, glom on to it and prevent it from affecting the count of available hydronium ions. In a glass of pure water, there’s not much for the bicarbonate ions from baking soda to interact with, so they just float around and taste generally nasty. But if you were to add a spoonful of vinegar — which is acetic acid — to that glass, the bicarbonate ions would react with the acetic acid and generate carbon dioxide as part of that reaction.

Depending upon the amount of bicarbonate you started with, after you add the spoonful of vinegar the glass will be in one of three states (none of which involve being half-full or half-empty): bicarbonate ions still available but no acetic acid ions available, no bicarbonate ions available but acetic acid ions still available, or neither bicarbonate nor acetic acid ions freely available. In baking, it’s this last state — a neutral balance — that we want to reach. Too much baking soda, and it won’t all react with the acids in the food and will leave the food with a soapy, yucky taste. Not enough baking soda, and the food will remain slightly acidic (which is okay) and not have as much lift as possible (which is probably not okay — your food will be flat). To repeat one of my favorite quotes: “Dosage matters!”

The reaction between baking soda and an acid is the key to understanding when you should use baking soda versus baking powder. This balancing act between acids and baking soda isn’t a problem with baking powder, of course. This is because the baking powder is already balanced for you — the ratio of acids to bicarbonate is preset by the manufacturer.

If your ingredients aren’t very acidic, baking soda won’t have much to react with, so use baking powder. On the other hand, if your ingredients are extremely acidic, using baking soda will work, since there will be enough hydronium ions to react with. How much baking soda to use depends on the pH of the ingredients in your dish. Short of testing or calculating the pH, experimentation is the easiest way: take a guess and keep notes. Keep adding baking soda until the additional baking soda no longer helps with lift (or can be tasted). If you’re still not getting enough lift at this point, switch to adding baking powder.

Note

Baking soda doesn’t need an acid to decompose; heat will do it, too. Try melting some sugar, just as though you were making caramel (see
Caramel Sauce
in
Chapter 4
), and instead of adding cream, add a small spoonful of baking soda and stir. The baking soda will break down and cause the sugar to bubble up.

The pH of common ingredients.

Buttermilk Pancakes

Given time, yeast and bacteria generate flavors that we often find pleasant. But what about those times when you’re craving that taste right now — or at least, sometime this morning? You can take a shortcut by using buttermilk, which has already been munched on by bacteria.

Whisk together to combine thoroughly:

  • 2 cups (240g) bread flour
  • 5 tablespoons (60g) sugar
  • 1 ½ teaspoons (7g) baking soda
  • 1 teaspoon (5g) salt

In a separate bowl, melt:

  • ½ cup (115g) melted butter

In the same bowl as the butter, add and whisk together:

  • 2 ½ cups (610g) buttermilk (lukewarm!)
  • 2 large (120g) eggs

Mix the wet ingredients into the dry, stirring with a whisk or spoon to combine. Cook on a griddle or nonstick frying pan set over medium heat (if you have an IR thermometer, 325–350°F / 160–175°C) until golden brown, about two minutes per side.

Notes

  • You don’t need to butter the griddle or pan before cooking these — there is enough butter in the batter that the pancakes are self-lubricating — but if you do feel the need, wipe any excess butter out of the pan before cooking the pancakes. If you have any dots of oil on the surface, they’ll interfere with the Maillard browning reactions.
  • Pull the buttermilk and eggs out of the fridge an hour or so before you’re ready to use them, to allow them to come up to room temperature. If you’re in a rush, you can double-duty a microwave-safe mixing bowl: melt the butter in it, add the buttermilk, then nuke it for 30 seconds to raise the temperature of the buttermilk.
Note

Try using this batter for buttermilk fried chicken. Slice cooked chicken into bite-sized pieces, dredge them in cornstarch, dip them in this batter, and then deep-fry them in vegetable oil at 375°F / 190°C. The starch will help the batter adhere to the chicken. (No cornstarch? Use flour.) For the ideal texture, cook the chicken sous vide, as described in
Sous Vide Cooking
of
Chapter 7
.

Gingerbread Cookies

Chemical leaveners aren’t always used to create light, fluffy foods. Even dense items need some air to keep them enjoyable.

In a bowl, mix together with a wooden spoon or electric beater:

  • ½ cup (100g) sugar
  • 6 tablespoons (80g) butter, softened but not melted
  • ½ cup (170g) molasses
  • 1 tablespoon (17g) minced ginger (or ginger paste)

In a separate bowl, whisk together:

  • 3 ¼ cups (400g) flour
  • 4 teaspoons (12g) ginger powder
  • 1 teaspoon (5g) baking soda
  • 2 teaspoons (3g) cinnamon
  • 1 teaspoon (1g) allspice
  • ½ teaspoon (2g) salt
  • ½ teaspoon (2g) ground black pepper

Sift the dry ingredients into the bowl with the sugar/butter mixture. (I use a strainer as a sifter.) Work the dry and wet ingredients together using a spoon or, if you don’t mind, your hands. The dough will get to a crumbly, sand-like texture. Add ½ cup (120g) water and continue mixing until the dough forms a ball.

Turn out the dough onto a cutting board coated with a few tablespoons of flour. Using a rolling pin, roll out the dough until it is about ¼” (0.6 cm) thick. Cut it into shapes using a cookie cutter or a paring knife and bake them on a cookie sheet in an oven set to 400°F / 200°C until cooked, about eight minutes. The cookies should be slightly puffed up and dry, but not overly dry.

Baking gingerbread cookies is, of course, a great holiday activity with kids.

Gingerbread Cookie Frosting

In a microwave-safe bowl, mix together with a fork or electric beaters:

  • 3 tablespoons (40g) butter, softened but not melted
  • 1 cup (200g) powdered sugar
  • 1 tablespoon (15g) milk
  • 1 teaspoon (4g) vanilla extract

Add food coloring if desired. Microwave the frosting for 15 to 30 seconds — long enough to melt the frosting, but not so long that it boils. This will give you a frosting that you can then quickly dip the cookies into and that will set into a nice, thin coating that adheres well to the cookies.

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