1:Cellular respiration
2:Aerobic respiration
3:glycolysis
Three examples of stored energy from photosynthesis are glucose, starch, and cellulose. These molecules store energy in the form of chemical bonds, which can be broken down through cellular respiration to release energy for various metabolic processes.
Three forms of stored energy are mechanical energy (e.g. in springs or compressed air), chemical energy (e.g. in batteries or fossil fuels), and gravitational potential energy (e.g. in raised objects).
The three end products of photosynthesis are glucose (sugar), oxygen, and water. During photosynthesis, plants use energy from sunlight to convert carbon dioxide and water into glucose and release oxygen as a byproduct.
In order for respiration to occur, three things must be present: oxygen, a source of energy (such as glucose), and a metabolic system capable of breaking down the energy source to release energy for cellular processes.
Suppose you take starchy meal three times a day. So after taking each such meal, you continue to get glucose for say about four hours. This glucose is utilized by your body. Three meals will give you supply of glucose for about twelve hours. During this time you are physically active and consume, rather more energy. At the same time your liver will convert some glucose to glycogen. So you have about 300 grams of glycogen stored in your liver and muscles. Rest of the glucose is converted to fat.By metabolizing food nutrients! There are pathways in the cell to utilize the sugar (monomeric form after starch digestion) to produce Energy (ATP)
Three examples of stored energy from photosynthesis are glucose, starch, and cellulose. These molecules store energy in the form of chemical bonds, which can be broken down through cellular respiration to release energy for various metabolic processes.
The glucose is split into 2 molecules of a three carbon compound
Three forms of stored energy are mechanical energy (e.g. in springs or compressed air), chemical energy (e.g. in batteries or fossil fuels), and gravitational potential energy (e.g. in raised objects).
The three main things that store energy in chemicals are carbohydrates (such as glucose), fats (triglycerides), and proteins. These molecules can be broken down through various metabolic processes to release stored energy for use by the body.
The three end products of photosynthesis are glucose (sugar), oxygen, and water. During photosynthesis, plants use energy from sunlight to convert carbon dioxide and water into glucose and release oxygen as a byproduct.
In order for respiration to occur, three things must be present: oxygen, a source of energy (such as glucose), and a metabolic system capable of breaking down the energy source to release energy for cellular processes.
They are nuclear, chemical, and electrical.
kinetic energy,sound energy, and sound energy
Suppose you take starchy meal three times a day. So after taking each such meal, you continue to get glucose for say about four hours. This glucose is utilized by your body. Three meals will give you supply of glucose for about twelve hours. During this time you are physically active and consume, rather more energy. At the same time your liver will convert some glucose to glycogen. So you have about 300 grams of glycogen stored in your liver and muscles. Rest of the glucose is converted to fat.By metabolizing food nutrients! There are pathways in the cell to utilize the sugar (monomeric form after starch digestion) to produce Energy (ATP)
The three forms of energy are kinetic energy (energy of motion), potential energy (stored energy), and thermal energy (energy due to temperature).
Three energy conversions that occur in photosynthesis are the following. Light is converted into chemical energy. Then the energy is used with CO2 to produce sugar. This sugar is then available to be combined with CO2 and being the cycle again.
Starch is a polysaccharide: it is made up of many, many units of glucose molecules joined together with glycosidic linkages between them. Glucose units are joined through condensation (dehydration synthesis) reactions, where 2 H and one oxygen is removed between 2 glucose molecules to join them together. In photosynthesis, plants use light energy to produce chemical energy in the form of glucose from CO2 and water. The glucose produced is usually converted into starch by the plant for energy storage. Starch is stored mostly in the amyloplasts of a plant. Starch, unlike glucose, is not soluble in room temperature water, so it is more compact and easily stored.