Here and Now Low Cost Low-Density Radiation Protection for an Initial Mars Mission

When writing this article, the risks appear to be acceptable. However, with minor modifications to the procedures, a significant improvement in current radiation protection can be achieved and can be achieved with ALARA's principal obligation (as far as reasonably available). This driver takes into account that certain threats to space research are necessary

Two types of radiation can be investigated. The Sun (our day-to-day) and the GCRS (the galactic cosmic rays apart from our solar system) Solar radiation consists mainly of protons, neutrons, electrons and photons, these particles are moving at a low speed and the spacecraft can block itself. Stars other than our solar system produce these particles, they have only a small fraction of Earth and have enough energy to be neglected in this debate, the second type of radiation being GCRS. These particles have a large mass and travel close to the speed of light, and without difficult granular shading, it is difficult to stop without crashing or to create a powerplant that is too heavy. Shadows for Residents

Shielding from GCRS creates secondary and tertiary radiation, which should also be taken into account. Secondary radiation is a wave or particle deceleration F is the initial particle. This type or radiation can be dangerous to the astronauts. This type of second type of radiation is called "Bremsstralung Radiation" or braking radiation. This GCR shield must also be stopped. Since heavy shading and power plants should not be used with a weight that would require more fuel, other developments should be considered. Numerous studies have been conducted using complex differential equations and Monte Carlo simulations to share many variables of radiation protection.

In this article, I outline how to complete the quest for deep space, which is a small, if not negligible, mass of spacecraft. The first medical proposal will be, the second will be technical change. Radiation can cause cell damage and cancer can develop. Inflammation may begin when the cells are damaged. Over time, chronic inflammation can cause cell damage and can cough. I suggest Mars and Earth to take anti-inflammatory drugs. Medicines such as aspirin should be used. The drug dose and the type of medicine should be approved by medical personnel. A second part of the medical proposal is to do something in the cells to neutralize the free radicals produced by the radiation. Free radicals can be neutralized with certain antioxidants such as vitamin C and E. High-dose Vitamin C and Vitamin E with coated doctor.

Next I'll explain how radiation protection can be improved The head, as this is the body's most important area for making the right decision about space travel. Cosmic rays can affect the brain and the central nervous system. It has been known that patients with cerebral tumors who have undergone radiotherapy may experience severe neurological damage such as cognition and memory problems. So I suggest that you wear a protective helmet when traveling between Earth and Mars. This helmet is relatively heavy and should not accelerate and slow when its weight is felt. This helmet must be worn in a weightless way on the road to Mars.

The material made by the helmet is polyethylene, lead and water. Polyethylene is 50% better than sunshine shielding and 15% better than shading for cosmic radiation than aluminum. Polyethylene also produces significantly less secondary radiation than the heavier materials of aluminum and lead. A good starting point for the helmet is the following: an outer 1/2 inch thick lead and a 3-inch polyethylene inner layer with a 1-inch water pump in the middle of the polyethylene. It has a full thickness of 8.89 cm. This helmet needs to be tested and perfected. It is definitely better to leave your head unprotected.

Source by Michael A Daddazio

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