When sugar is digested in an animal cell, it is broken down into glucose molecules. Glucose is used by the cell to produce energy through cellular respiration. Additionally, any excess glucose can be stored as glycogen for later use.
The primary gas produced during sugar digestion in animal cells is carbon dioxide (CO2). This occurs through the process of cellular respiration, where glucose is broken down to release energy, with CO2 being a byproduct that is then exhaled.
They use sugar (glucose) to make energy (ATP) to drive the cell processes. They are called the powerhouses of the cell.
The sugar produced at the end of photosynthesis is glucose.
It comes from food that the organism ate. Either from eating glucose it is a form of sugar or from eating other foods that are eventually broken down into sugar.
Carbon Dioxide will be produced.
When sugar is digested in an animal, ATP (Adinosine Tri Phosphate) is produced which is a chemical form of energy.
When sugar is digested in an animal cell, it is broken down into glucose molecules. Glucose is used by the cell to produce energy through cellular respiration. Additionally, any excess glucose can be stored as glycogen for later use.
it eats the suger
The primary gas produced during sugar digestion in animal cells is carbon dioxide (CO2). This occurs through the process of cellular respiration, where glucose is broken down to release energy, with CO2 being a byproduct that is then exhaled.
When sugar is digested in an animal cell, it is broken down into glucose molecules. Glucose is then used as a source of energy to fuel the cell's activities through the process of cellular respiration. Additionally, excess glucose may be stored in the form of glycogen for later use.
Animal cells do not digest sugar (the animal stomach does that). Animal cells 'burn' sugar to give them energy and the by-products are water and carbon-dioxide.
sugar sugar
carbon dioxide
glucose a.k.a sugar
A: Lactose, or milk sugar, is digested by the enzyme lactase. Lactase is produced in the small intestine. It catalyses (speeds up) the digestion of lactose into two smaller sugars, glucose and galactose.
lipids