it does not has any charge
negative
none
Yes, sucrose (a disaccharide composed of glucose and fructose with the molecular formula C12H22O11) commonly known as table sugar, contains glucose.
There are no mobile electrically charged particles in a glucose solution that are sufficiently long-lived to transport electric charge from one electrode immersed in a glucose solution to another.
London dispersion force occurs betwen all molecules but is the only intermolecular bond exhibited in NON polar molecules. since glucose (C6H12O6) is a polar molecule, the strongest force present is hydrogen bonding. hydrogen bonding occurse in between the hydrogen of one molecule and the oxygen, flourine, or nitrogen of another molecule.
glucose does
because if we do not have glucose we cannot produce a glucose..
yes, it is small(24 atoms) and has no charge
Yes, sucrose (a disaccharide composed of glucose and fructose with the molecular formula C12H22O11) commonly known as table sugar, contains glucose.
chlorophyll inside the leaves, carbon dioxide + water = glucose + oxygen
There are no mobile electrically charged particles in a glucose solution that are sufficiently long-lived to transport electric charge from one electrode immersed in a glucose solution to another.
Glucose
-enzyme immobilised(in biosensor ) -H+ ions released (from gluconic acid) -give positive charge -current flows -size of current proportional to concentration of H+/glucose -low reading (when blood tested) indicates,hypoglycaemia/ low blood glucose concentration. -Or reverse arguments.
A nucleotide components are a nitrogenous base, a five-carbon sugar and a phosphate while Glucose is a six-carbon sugar therefore a nucleotide is much larger than in size than a glucose molecule. The size difference could be used to separate the molecules. Or considering the differences of charge/ solubility of the nitrogeneous base as well as the phosphate groups to separate from glucose.
The first step in glycolysis is catalyzed by hexokinase, an enzyme with broad specificity that catalyzes the phosphorylation of six-carbon sugars. Hexokinase phosphorylates glucose using ATP as the source of the phosphate, producing glucose-6-phosphate, a more reactive form of glucose.
London dispersion force occurs betwen all molecules but is the only intermolecular bond exhibited in NON polar molecules. since glucose (C6H12O6) is a polar molecule, the strongest force present is hydrogen bonding. hydrogen bonding occurse in between the hydrogen of one molecule and the oxygen, flourine, or nitrogen of another molecule.
If a beaker containing glucose is permeable to glucose, then the glucose will go through the beaker.
glucose? i think glucose is a different thing than liquid glucose.
One example of modified monosaccharides are the phosphorylated sugars. An important phosphorylated sugar is glucose 6-phosphate, which is a glucose phosphorylated on carbon 6. The significance of this molecule is that it provides energy in certain metabolic pathways, and it can be converted and stored as glycogen when blood glucose levels are high. If blood glucose levels are low, glucose 6-phosphate can be converted back into glucose to enter the bloodstream once again. A unique property of glucose 6-phosphate is that once glucose is phosphorylated, the sugar possesses a negative charge. This prevents the molecule from leaving the lipid-bilayer membranes. This allows the cell to easily access the modified sugar to provide energy for metabolic pathways such as glycolysis, or convert it to glycogen as storage.