How does a microwave oven works?

Question

why in a microwave oven microwaves generates and why they effect to the object only,? can anybody tell me the basic concept of it.?

Answer 1

A microwave oven consists of:

a magnetron,
a magnetron control circuit (usually with a microcontroller),
a waveguide, and
a cooking chamber
A microwave oven works by passing microwave radiation, usually at a frequency of 2.45 GHz (a wavelength of 12.24 cm), through the food. Water, fat, and other substances in the food absorb energy from the microwaves in a process called dielectric heating. Many molecules (such as those of water) are electric dipoles, meaning that they have a positive charge at one end and a negative charge at the other, and therefore rotate as they try to align themselves with the alternating electric field induced by the microwaves. This molecular movement creates heat as the rotating molecules hit other molecules and put them into motion. Microwave heating is most efficient on liquid water, and much less so on fats and sugars (which have less molecular dipole moment), and frozen water (where the molecules are not free to rotate). Microwave heating is sometimes explained as a rotational resonance of water molecules, but this is incorrect: such resonance only occurs in water vapour at much higher frequencies, at about 20 gigahertz. Moreover, large industrial/commercial microwave ovens operating at 915 MHz also heat water and food perfectly well. [1]

A common misconception is that microwave ovens cook food from the "inside out". In reality, microwaves are absorbed in the outer layers of food in a manner somewhat similar to heat from other methods. The misconception arises because microwaves penetrate dry nonconductive substances at the surfaces of many common foods, and thus often deposit initial heat more deeply than other methods. Depending on water content the depth of initial heat deposition may be several centimeters or more with microwave ovens, in contrast to broiling (infrared) or convection heating, which deposit heat thinly at the food surface. Depth of penetration of microwaves is dependent on food composition and the frequency, with lower microwave frequencies penetrating better.

Most microwave ovens allow the user to choose between several power levels, including one or more defrosting levels. In most ovens, however, there is no change in the intensity of the microwave radiation; instead, the magnetron is turned on and off in cycles of several seconds at a time. This can actually be observed when microwaving airy foods which may inflate during heating phases, and deflate when the magnetron is turned off.

The cooking chamber itself is a Faraday cage enclosure which prevents the microwaves from escaping into the environment. The oven door is usually a glass panel for easy viewing, but has a layer of conductive mesh to maintain the shielding. Because the size of the perforations in the mesh is much less than the wavelength of 12 cm, the microwave radiation can not pass through the door, while visible light (with a much shorter wavelength) can.

Microwave ovens are generally used for time efficiency in both industrial applications such as restaurants and at home, rather than for cooking quality, although some modern recipes using microwave ovens rival recipes using traditional ovens and stoves. Professional chefs generally find microwave ovens to be of limited usefulness. On the other hand, people who want fast cooking times can use microwave ovens to prepare food or to reheat stored food (including commercially available pre-cooked frozen dishes) in only a few minutes. Popcorn is one example of a very popular item with microwave oven users.

A variant of the conventional microwave is the convection microwave. A convection microwave is a combination of a standard microwave and a convection oven. It allows food to be cooked quickly, yet come out browned or crisped, as from a convection oven. Convection microwaves are more expensive than a conventional microwave. They are not considered cost-effective if primarily used just to heat drinks or frozen food. They are usually used for cooking a prepared dish.

More recently, certain manufacturers have added a high power quartz halogen bulb to their convection microwave models while marketing them under names such as "Speedcook", "Advantium" and "Optimawave" to emphasize their ability to cook food rapidly and with the same browning results typically expected of a conventional oven. This is achieved using the high intensity halogen lights at the top of the microwave to deposit large amounts of infrared radiation to the surface of the food. The food browns while also being heated internally by the microwave radiation and heated through conduction and convection by contact with heated air - produced by the conventional convection portion of the unit. The IR energy which is rapidly delivered to the outer surface of food by the lamps is sufficient to initiate browning and caramelization reactions in a particular food's proteins and carbohydrates, producing a texture and taste much more similar to that typically expected of conventional oven cooking rather than the bland boiled and steamed taste that microwave-only cooking tends to create.

With wireless computer networks gaining in popularity, microwave interference has become a concern near wireless networks. Microwave ovens are capable of disrupting wireless network transmissions because the ovens generate radio waves of about 2.45 GHz in the 802.11b/g frequency band.

Answer 2

If you have a guitar and two strings are tuned to the same note, when one string is plucked, the other will also vibrate. The sound will cause the string to resonate. The chemical bonds between molecules can do the same thing. The frequency of the microwave is the same frequency for the oxygen hydrogen bond. The molecule vibrates and generates heat in the process. Since it is associated with the water molecule, plastics, glass, paper, etc. doesn't generate heat. Beverages, fats, meats, and vegetables do have a higher content of water. Popcorn seeds will absorb more water if you put them in the refrigerator. So if you want you popcorn to pop better, you can leave them in the refrigerator for a while.

Answer 3

Basically, here is how it works: electricity from the wall outlet travels through the power cord and enters the microwave oven through a series of fuse and safety protection circuits. These circuits include various fuses and thermal protectors that are designed to deactivate the oven in the event of an electrical short or if an overheating condition occurs.

bad answer?

Answer 4

The waves in a micro-wave are close to the resonance frequency of water molecules, but not exactly on it.

So, when a water molecule is under the action of those waves, it heats up.