The stages in the conversion and storage of nutrients is specific for each type, so this is just a general overview.
The excess nutrients are not stored in the skin itself, but in a layer just beneath the skin called "adipose". These cells are able to store fat globules, or to create and store them from excess food. Adipose tissues are found in other areas of the body as well, which explains why different people put on fat in different areas. Females typically initially put on weight in the buttocks, whereas males are more likely to develop a big belly, but fat can be stored anywhere there is adipose tissue (around the heart, for instance). Vitamin D (along with Vitamins A,E and K) is fat soluable, so excesses can be stored in the fat tissues.
Yes, vitamin E helps burns. But if you are not camping, then take a trip to the drug store.
Photosynthesis is a reaction that uses sunlight to convert carbon dioxide and water into glucose and oxygen in plants. In humans, sunlight activates the synthesis of vitamin D in the skin.
Usually They Are the Vitamins That Naturally Enhance and Give a Youthful Appearance to the Skin. Such as Vitamin E, Vitamin D, and Vitamin K. Collagen Is Another Which Gives Your Skin a Drink of Water, So to Speak. Giving the Skin a Plumper, Firmer Feel.
The vitamin that is best for skin is Vitamin E. This can help with skin diseases, and can even help to prevent skin cancer in those with skin diseases.
Vitamin D.
vitamin E
Vitamin A and Vitamin E are the 2 i know of.
Vitamin D, of course.
The Sun causes the synthesis of Vitamin D in the skin.
Vitamin D is synthesized in the skin with the help of sunlight.
I don't thing that there is any vitamin that can make your skin look younger. The only vitamin that I was told to use to make my skin look younger was Vitamin E, because it is safe and it brings out the oil in your skin.
Vitamin D is the important vitamin that is formed in the skin when it is exposed to sunlight. UVB rays from the sun convert a cholesterol derivative in the skin into vitamin D3, which is then converted into its active form in the liver and kidneys.