Sugar is primarily produced in plants through a process called photosynthesis, which occurs in the chloroplasts of plant cells. During photosynthesis, plants convert sunlight, carbon dioxide, and water into glucose (a type of sugar) and oxygen. The glucose can then be used for energy or stored as starch. In some plants, particularly sugarcane and sugar beets, large amounts of sugar are accumulated in specific tissues, making them important sources of commercial sugar.
beet root, sugar cane and sweet potato produce sugar.
Ethanol produces around 80% by fermenting 100g of sugar produce.
glucose
Chemical changes in sugar, such as caramelization or combustion, typically require high temperatures (above the sugar's melting point) to break down the molecular structure of sugar. In the presence of oxygen, sugar can undergo combustion reactions that produce water and carbon dioxide as byproducts. Additionally, catalysts may accelerate these chemical changes in sugar.
Deoxyribose sugar molecules are involved in the structure of DNA. These sugar molecules are part of the backbone of the DNA double helix, linking with phosphate groups to form the sugar-phosphate backbone of the DNA strand.
by measuring it. because if you test the structure of a sugar by measuring you will know what is the structure of the sugar... answer by: heralyn laquezta :)
RNA uses ribose sugar in its structure.
beet root, sugar cane and sweet potato produce sugar.
sugar sugar
Yes, DNA contains deoxyribose sugar in its structure.
Yes, DNA contains the sugar deoxyribose in its structure, not ribose.
It takes roughly 2 to 3 meters of sugar cane to produce one teaspoon of sugar. The cane is crushed to extract its juice, which is then processed and refined to produce sugar.
sugar sugar sugar
Photosynthesis produce hexose sugar and oxygen
The chemical structure of sugar remain unchanged.
Ethanol produces around 80% by fermenting 100g of sugar produce.
Trees produce sugar through photosynthesis, which involves capturing sunlight and converting carbon dioxide (CO2) and water into glucose. During this process, the CO2 is absorbed from the atmosphere and incorporated into the tree's structure.