Sugar molecules are bonded together by a process called dehydration synthesis.
When two glucose molecules are chemically bonded together, they form a water molecule and sugar maltose. This process is called dehydration synthesis.
disaccharide
active transportdiffusionexcretioncellular respiration
diffusion
phosphodiesterbonds
The process is dehydration+synthesis.
When two glucose molecules are chemically bonded together, they form a water molecule and sugar maltose. This process is called dehydration synthesis.
disaccharide
Carbohydrates (e.g., starch, cellulose, or glycogen) whose molecules consist of a number of sugar molecules bonded together.
dehydration synthesis
I think you are talking about a polysaccharide. There are monosaccharides and polysaccharides with the latter consisting of many sugar molecules bonded together. Hope this helps.
sugar melts faster because of the intermolecular attractions between the molecules. Salt is a chemical where all the molecules are bonded together, and this forms a lattice. (Look up lattice in a search engine) Seperating the molecules from each other is what makes a chemical melt. However, since all the salt molecules are bonded together, it's VERY difficult to separate the molecules (aka. make it melt.) Sugar molecules are not bonded together and have very little attraction forces among them, so it's very easy to separate the molecules from each other. Therefore, it's VERY easy to melt.
This is called a disaccharide.
This is a comlex carbohydrate made from many different sugar molecules joined together
Sugar would dissolve faster in soapy water. Sugar dissolving is actually the sugar molecules bonding with the water molecules. In salt water, sodium has already bonded with the water molecules, leaving no room for more bonding with sugar molecules. Soap, on the other hand, is a very mild base. It isn't so much a bonded element with water as it is a mixture. All of the water molecules are still available for bonding with sugar.
Change phaze
Sugar contains three elements bonded together: carbon, hydrogen and oxygen.