Overload in Aviation and Space Medicine

G-force in aviation and space medicine is an important indicator that characterizes the impact of acceleration on the human body during flights and space missions. This indicator is defined as the ratio of the resultant moving forces acting on the human body to its mass.

Overload can be caused by various factors, such as acceleration of an aircraft or spacecraft, changes in gravitational forces, and other factors. In aviation medicine, overload is used to assess the impact of various factors on the human body and determine the optimal level of overload to maintain the health and safety of passengers and crew.

In space medicine, overload also plays an important role. It allows you to assess the level of g-forces that may occur during space missions and determine the optimal conditions for flight. In addition, g-force can be used to assess the health of astronauts and prevent possible negative consequences for their health.

Thus, g-force is an important tool for assessing the impact of various factors on human health in aviation and space medicine. It allows you to determine optimal flight conditions and prevent possible negative consequences for the health of passengers and astronauts.



Overload in space and aviation medicine is one of the key safety indicators. It can be useful in describing the conditions in which the crew operates and in determining how they can maintain their vital functions.

Overload is a variable coefficient of body overload under the influence of accelerations. This can happen when the body is flying into space or traveling in a vehicle. A maximum overload value of 3 times the force of gravity can lead to hypoxia and other problems with the respiratory system, as well as damage the soft tissues of the body. Because of this, it is important to monitor the frequency of G-force fluctuations as a person moves.

In aviation, g-force measurement methods are used using accelerographs. An accelerograph is used to record changes in speed, acceleration and their quantitative measurement. Time feedback devices such as pressure gauges provide the ability to calculate speed and load based on volume variability. This is why accelerograms are often used to identify overload peaks when testing devices. As a result, it is possible to identify disturbances in trajectories with small amplitudes.

Space medicine involves the development of new treatments for long-duration spaceflights. Among them is the development of drugs that can reduce the effects of cosmic overload on the body. Space overload can lead to many problems and make the crew's job easier if assessed correctly. In addition, astronauts must successfully cope with their duties, even if they are not wearing protective suits