A microwave oven is a kitchen appliance employing microwave radiation to cooking food.
The idea for using microwaves to cook food was discovered by Percy Spencer who was working for Raytheon and was building magnetrons for radar sets. One day he was working on an active radar set when he had noticed a sudden and strange sensation, and saw that a chocolate bar he had in his pocket had melted. The holder of 120 patents, Percy was no stranger to discovery and experiment, and realized what was happening. The first food to be deliberately cooked with microwaves was popcorn, and the second was an egg (which exploded in the face of one of the experimenters).
In 1946 Raytheon patented the microwave cooking process and in 1947, they built the first commercial microwave oven, the Radarange. It was almost 6 feet (1.8 m) tall and weighed 750 pounds (340 kg). It was water-cooled and produced 3000 watts, about three times the amount of radiation produced by microwave ovens today. This first step was so successful that Raytheon eventually purchased Amana to round-out a complete home appliance product suite.
A number of other companies joined in the market, and for a time most systems were built by defense contractors, who were the most familiar with the magnetron. Litton was particularly well known in the restaurant business. By the early 1970s the technology had improved to the point where prices were falling rapidly. Formerly found only in large industrial applications, microwaves were increasingly becoming a standard fixture of most (western) kitchens. The rapidly falling price of microprocessors also helped by adding electronic controls to make the ovens easier to use. By the 1980s they were almost universal.
A microwave oven consists of:
A microwave oven works by passing microwave radiation, usually at a frequency of 2450 MHz (a wavelength of 12.24 cm), through the food. water (molecule), fat, and sugar molecules in the food absorb energy from the microwave beam in a process called dielectric heat. Most molecules are electric dipole, meaning that they have a positive charge at one end and a negative charge at the other, and is therefore twisted to and fro as it tries to align itself with the alternating electric field induced by the microwave beam. This molecular movement creates heat. Microwave heating is most efficient on liquid water, and much less so on fats, sugars, and frozen water. Microwave heating is sometimes incorrectly explained as resonance of water molecules, but this occurs only at much higher frequencies, in the tens of gigahertz.
The cooking chamber itself is a Faraday cage enclosure to prevent the microwaves escaping into the surroundings. The oven door is usually a glass panel, but has a layer of conductive mesh to maintain the shielding. Since the mesh width is much less than the wavelength of 12 cm, the microwave radiation can not pass through the door, while light (with a much shorter wavelength) can.
Commercial chefs generally find microwave ovens to be of limited usefulness. See Microwaving for a discussion of this reason.
A microwave oven does not convert all electrical energy into microwaves. A typical consumer microwave oven could consume 1100 W, and deliver 700 W of microwave power. The remaining 400 W are dissipated as heat in the magnetron tube, which will not end up in the food but rather in the air in the kitchen. See Electrical efficiency.
Most of the actual microwave power will end up heating the food inside the oven, unless the microwave oven is loaded with a very small amount of absorbing food. In that case, the magnetron element will reabsorb the microwaves, which can lead to overheating.
Microwaving food is fast and popular, but there are hazards. See also: Microwaving.
Food is heated for so short a time that it is often cooked unevenly. Microwave ovens are frequently used for reheating previously cooked food, and bacterial contamination may not be killed by the reheating, resulting in foodborne illness. The uneven heating is partly due to the uneven distribution of microwave energy inside the oven, and partly due to the different rates of energy absorption in different parts of the food. The first problem is reduced by a stirrer, a type of fan that reflection microwave energy to different parts of the oven as it rotates, and by a turntable that turns the food. The second problem must be addressed by the cook, who should arrange the food so that it absorbs energy evenly, and periodically test and shield any parts of the food that overheat.
Distilled water, when heated in a microwave oven in a container with a smooth surface, can superheating, that is, reach temperatures that are a few centigrades above the normal boiling point, without actually boiling. The boiling process can start explosively when the operator takes the container out of the oven, which can result in severe burns. Closed containers and eggs can explode when heated in a microwave oven due to the pressure build-up of steam. Products that are heated too long can catch fire. Manuals of microwave ovens typically warn for these hazards. Tin foil, aluminium foil, ceramics decorated with metal, and products containing other metals can cause sparks when they are cooked in a microwave.
There exists an anti-microwave lobby that claims that there exist more subtle dangers than the ones listed above associated with cooking in a microwave oven. It is claimed that microwave cooking causes more loss of nutrients than conventional cooking and that microwave radiation leads to chemical reactions in the food that are different from those occurring during conventional heating. These issues are discussed on other websites:
Note, however, that these web sites give a rather one-sided view of the issue.
Some people are concerned with being exposed to the microwave radiation. The USA legal limit of leaking radiation is 1 mW/cm2 at 5 cm from a new oven (for a used oven, it is 5 times higher). It is rare for an oven to exceed these limits. As a comparison, a GSM cellular telephone may emit up to 1 W at 1800 MHz, which is 2 mW/cm2 at 5 cm. Whether or not cellular phones are hazardous to the health is also somewhat controversial.
