*Motor aura* is one of the types of aura that forms around the human body during physical or emotional activity. Motor auras are usually associated with movement and muscle activity, such as walking, running, swimming, playing sports, dancing, etc. However, motor auras can also occur in other situations when a person is experiencing strong emotional stress, such as during an exam, public speaking, or argument.
The history of the study of motor auras begins in the first half of the 20th century, when physicists began to study electromagnetic fields and the interactions between them. In the 1950s, scientists began to study motor auras and developed methods for recording and measuring them. However, this direction quickly turned out to be forgotten due to lack of funding and technical capabilities.
Modern research into motor auras began in the 1980s. Scientists have found that during physical exercise and muscle contractions, electric fields are formed that can be recorded with modern instruments. These measurements showed that motor auras have a complex structure that can change depending on the type of exercise and the intensity of the load.
It has been found that during physical activity two main types of changes occur in the motor aura: energetic changes and magnetic changes. Energy changes relate to the amount of electrical energy released in muscle cells and are fundamental to understanding physical performance and muscle fitness. Magnetic changes can occur due to the rotation of electrons in muscles and are also an important factor in the study of physical activity.
Currently, research is being conducted to study motor auras in various areas of life, such as sports, dance, music, martial arts and other types of motor activity. Work is also underway to develop methods for measuring motor auras in order to create new technologies in the field of sports, medicine and rehabilitation.
Thus, the motor aura is an important phenomenon in science, which not only has scientific significance, but is also of great interest to doctors, psychologists, trainers and many other specialists. It can help to better understand the physiological mechanisms of physical activity and develop new methods of treatment and rehabilitation of various diseases.