 |
Principles of Cooking
To cook foods successfully, you must understand the science and principles of cooking.
Now, bear with me. Yes, this page is about the science and principles of gourmet cooking, but please trust me, it is neither difficult to understand nor boring. It is merely the stating of a few basic facts that we all need to know to better understand what is happening when we apply heat to food. Cooking is simply the transfer of energy from a heat source to a food. To cook foods successfully, you must understand the ways in which heat is transferred: conduction, convection and radiation. Most important, specific to the principles of cooking, you must understand the methods used to transfer heat: broiling, grilling, roasting and baking, sauteing, pan-frying, deep-frying, poaching, simmering, boiling, steaming, braising and stewing . . . What are these methods? Why do some work better than others on certain foods? Heat Transfer Heat transfer can be transferred to foods through conduction, convection, or radiation. Heat travels through foods by conduction. Conduction Conduction, one of the most basic principles of cooking, is the movement of heat from one item to another through direct contact. For example, when a flame touches the bottom of a pan, heat is conducted to the pan. Generally, metals are good conductors. Copper and aluminum are the best conductors, while liquids and gases are poor conductors. Conduction is a slow method of heat transfer because there must be physical contact from one molecule to another. Convection Convection is the transfer of heat through a fluid. The fluid may be in a liquid or gas state. According to the principles of cooking, there are 2 types of convection: natural and mechanical. Natural convection causes a natural circulation of heat because warm liquids and gases have a tendency to rise while cooler ones fall. Mechanical convection causes heat to circulate more evenly and quickly through fans or stirring. Radiation
Radiation is energy transferred by waves of heat or light striking the food. Two types of radiant heat are infrared and microwave. Infrared cooking is commonly used with toasters and broilers. These devices use an electric or ceramic element heated to such a high temperature that it gives off waves of radiant heat. Microwave cooking relies on radiation generated by an oven to heat the food. The Effects Of Heat Proteins Coagulate Coagulation is when proteins transform from a liquid state to a solid state. Examples: the firming of meat fibers and egg whites changing from a clear liquid to a white solid when heated. Starches Gelatinize When a mixture of starch and liquid is heated, starch granules swell. The liquid thickens because the starch granules swell to occupy more space. Examples: The thickening of sauces when starch is added. Sugars Caramelize As sugars cook, they turn brown and change flavor. Caramelized sugar is used in many sugars, candies, and desserts. In fact, caramelization is used in most flavors we associate with cooking. Water Evaporates All foods contain some water. The evaporation of water drys foods during cooking. Fats Melt Fats are a greasy, smooth substance that do not dissolve in water. Oils are fats that remain liquid at room temperature. Fats melt when heated and then gradually liquefy. Fats will not evaporate. There, that wasn't so bad was it? I hope that you agree that some familiarity with the science and principles of cooking makes everything a little less mysterious, and adds to your abilities and enjoyment of cooking.
Dry-Heat Cooking Methods
Moist-Heat Cooking Methods
Combination Cooking Methods
Kitchen Tools | Knife Skills | Stocks | Sauces | Marinades & Rubs | Cooking Meats Cooking With Wine | How To Plate Like A Pro | Pairing Foods With Wines Favorite Gourmet Recipes | Gift Ideas | Culinary Terms | Free Newsletter Table Of Equivalents | Ask The Chef | Contact Us
|
