Yeas, that is what can occurred on macro-level, but on the charged particle level, for an Electromagnetic Radiation (EM-R) to be produced, specific condition must be fulfilled before EM-R is produced, and that is when the product multiplication of strong magnetic field and the radius of magnetic field surrounded the charged particle, which named as Circular Magnetic Field (CMF) gives specific value we named it constant k, it is given by
Where, is equal to 2.1434325320436182093462461464551e-2 meter Tesla
The fulfillment of this condition whether in an atom or when charged particle comes under the influence of a magnetic field, lead to the Flip-Flop (F-F) mechanism, and the production of EM-R, in your example the alternating movement of electrons, is similar to antenna where electrons are alternating, and that resulted in the F-F mechanism and EM-R production, for more on that please have a look on
“The Electromagnetic Radiation Mechanism” at: http://fundamentaljournals.org/ijfps/downloads/68_IJFPS_Sept_2014_72_79.pdf
And The “Electromagnetic Radiation Energy and Planck’ Constant” at:
Robert, that is true, but imagine in transmission antenna, the positive radio frequency moves electrons to one side, while the negative to the other side. Which mechanism is more plausible? An acceleration that release both magnetic and electric fields (without knowing how), or Flip-Flop (F-F) movement which released both the Circular Magnetic Field (CMF) and Electric Field (EF) producing an envelope shaped by that movement?
@ Vasile, this is very interested question, I thought about it partially before, but not in details.
Body radiates heat in form of Electromagnetic Radiation (EM-R), and that usually occurred in form of infrared radiation, it is estimated on average that human radiate ~350,000 J of energy per hour, which roughly equal to energy given off by a 100 Watt light bulb! (http://www.physlink.com/Education/AskExperts/ae420.cfm), an average-size human will output from around 70 watts to 870 watts, depending on the amount of physical activity undertaken (http://en.wikipedia.org/wiki/Thermoregulation), the diurnal body temperature, ranging from about 37.5° C. from 10 A.M. to 6 P.M., and falling to about 36.3° C (http://en.wikipedia.org/wiki/Thermoregulation#/media/File:Body_Temp_Variation.png), not all part of the body got worm all together, and human do have internal thermoregulation process, or a state of dynamic stability in an organism's internal conditions, opposite to state of hyperthermia where temperature increases significantly above the normal, the heat production and heat loss vary considerably in different parts of the body, although the circulation of the blood tends to bring about a mean temperature of the internal parts (http://en.wikipedia.org/wiki/Thermoregulation), the state of body temperature varied from Hypothermia 37.5 or 38.3 °C, Hyperthermia >37.5 to 38.3 °C, and Hyperpyrexia >40.0 or 41.5 °C (http://en.wikipedia.org/wiki/Human_body_temperature), many external factors effect body temperature, such as eating, drinking, while exercise raises body temperatures, others like psychological factors, which influence body temperature: a very excited person often has an elevated temperature (http://en.wikipedia.org/wiki/Human_body_temperature),
A temperature setpoint is the level at which the body attempts to maintain its temperature. When the setpoint is raised, the result is a fever. Most fevers are caused by infectious disease and can be lowered, if desired, with antipyretic medications (http://en.wikipedia.org/wiki/Human_body_temperature), human bodies naturally send and receive infrared waves, which are part of the Electromagnetic Spectru, it range between 6 to 20 microns, while the Japanese medical researchers have found that the optimal micron output range is between 7 and 14 microns, called the Vital Zone (http://www.radianthealthsaunas.com/what-is-far-infrared-sauna.html)
From this background, one can ask about what internal mechanism lead to the raise in body temperature? Is it on molecular or atom level?
Relating the above vast range of causes rises body temperature, with our EM-R (“The Electromagnetic Radiation Mechanism” http://fundamentaljournals.org/ijfps/downloads/68_IJFPS_Sept_2014_72_79.pdf) and atomic models (“The Magnetic Interaction”, http://www.journaloftheoretics.com/Links/Papers/MY.pdf), therefore the normality is when electron is orbiting nucleus on the natural orbit, while on any of the above factors, electron moved towards the excitation levels, where electron gained energy, and since the condition kr, is attained, as given by
Where, rF is CMF radius, B1U is the strong magnetic field, and is equal to 5.3585813301090455233656153661379e-3 Meter .T,
Hence, Electron Flip-Flop, and radiates that energy in the form of infrared wave. As you see the proper knowledge of the mechanism, require further research, which can relate all these factors together to bring a better understanding to how our body works.
Vasile, thanks once again, for comment and the paper.
In quantum, friction doesn't means a lot, but in this model, how much one degree centigrade change is related to Electromagnetic Radiation (EM-R)? What each body part produced such equivalent EM-R?
These and many more are interested questions for a new research, which could open a new scope to understand human body mechanism in much better way.
1. Accelerating charge, the higher the acceleration the higher the radiation. Acceleration means change in velocity value and direction.
2. Geometric conductor shape or travel path (i.e circular path inside a magnetron where the electrons follow a circular path, which means that they are accelerating all the time) that allows radiation - classical example is the dipole.
3. Length of the conductor should be approx half wavelength, meaning that within the time it takes for a charge to move along the conductor and back, the voltage applied to the conductor must go through one full cycle.