To draw a particle diagram for glucose, you can represent each glucose molecule as a hexagon shape. Inside the hexagon, you can draw small circles to represent the individual atoms within the molecule. For glucose, there are six carbon atoms, twelve hydrogen atoms, and six oxygen atoms. You can label each atom with its respective chemical symbol to indicate the composition of the molecule.
Your hormones helps shape your mood and feelings aswell as your glucose and bone growth. -Ferris, Texas, GO YELLOW JACKETS
Because beta is mo beta than alpha, you feel me?
Glucose, of course.
Glucose and Glucose
The shape that represents a glucose molecule is a hexagon with a carbon coming off the upper carbon
carrier proteins transport glucose into a muscle cell
The molecules of the glucose separate in the water and makes the polar shape govern the separation between each glucose molecule in the water.
To draw a particle diagram for glucose, you can represent each glucose molecule as a hexagon shape. Inside the hexagon, you can draw small circles to represent the individual atoms within the molecule. For glucose, there are six carbon atoms, twelve hydrogen atoms, and six oxygen atoms. You can label each atom with its respective chemical symbol to indicate the composition of the molecule.
they change shape
the shape of amylase allows it to have the right shape of active site that it will combine with starch and break it down into disaccharides and monosaccharides which will provides us glucose for body to function
Your hormones helps shape your mood and feelings aswell as your glucose and bone growth. -Ferris, Texas, GO YELLOW JACKETS
Because beta is mo beta than alpha, you feel me?
Because beta is mo beta than alpha, you feel me?
geometric shape.
Fructose as an ingredient or a 'sugar' replacement in your coffee or tea is normally consumed by diabetic sufferers. This is because it has a lower glycaemic index than sucrose (regular sugar). This means that when fructose is consumed the body takes longer to metabolise it into, its main energy source, glucose. So therefore, the glucose formed from fructose is absorbed into the blood stream much slower than what would be seen for sucrose. This is due to the different formations and shapes of the fructose and sucrose. So a more complex shape (fructose) would take longer to breakdown into the shape of glucose and the simpler shape (sucrose) would breakdown faster to glucose.
In this analogy, the cell membrane is like a wall, keeping what's in the cell inside, and what is outside of the cell out. However, there are "gates" called receptors. Receptors are large protein molecules embedded in the membrane, with one end outside and one end inside. Different gates, or receptors, permit certain things to enter. For example a glucose receptor lets glucose enter the cell. When a glucose molecule passes a glucose receptor, the glucose molecule is attracted to the receptor by an electric charge. It then binds to the receptor, but now the balance of the charges in the protein molecule has been changed, so the protein molecule changes shape. When it changes shape, it pulls the glucose into the cell and then lets go of the glucose. Now the protein is free to return to its original shape, and the glucose is inside the cell.