One is transfer of energy in chlorophyll. The other is transfer of electrons, which happen in photochemical reactions. Another is transport chain for electrons and synthesis of ATP. The final process concerns carbon fixation and release of products.
40%
Oxidation is a reaction in which an atom, molecule or compound loses an electron. OIL = Oxidation Is Lost; RIG= Reduction Is Gain LEO = Lose Electron in Oxidation; GER = Gain Electron in Reduction (LEO the lion says GER) Hydrolysis is a reaction in which a molecule or compound is broken down, by the addition of a water molecule (it is NOT the breaking of a water molecule into oxygen and hydrogen - that is a different reaction called electrolysis). An example of hydrolysis is the breaking down of maltose into 2 glucose molecules. A molecule of water is added, usually with an acid to catalyse the reaction, into a solution of maltose. You can therefore say that hydrolysis is a type of oxidation reaction, being as maltose loses glucose molecule (hence losing the electrons in the atoms of glucose).
The two main processes of Photosynthesis are Light Dependent and Light Independent (dark Reactions).
Water + Carbon Dioxide = Glucose (Plant sugar)
We need water because our body needs engry in the form of glucose. When two glucose combins it called as disuccharid it's not glucose. So the process of turning them into glucose is done by the water.
Glucose can be burnt in air to form water and carbon dioxide or oxidised in biological organisms using the 'krebs cycle'
Respiration.
approximately 40%
it's about 40%
40%
Glucose getconvertedto carbon bi oxide and water molecule, during oxidation in both the biological oxidation and chemical oxidation. One glucose molecule gives 6 carbon bi oxide and 6 water molecules.(C6H12O6 + 6 O2 = 6 CO2 + H2O.) In biological oxidation glucose is broken down in step wise manner. In about 22 steps, energy is released. So cell does not get burned due to sudden release of energy. So this is like, you come down from the two story building via staircase, step by step. So you do notinjure yourself. In chemical oxidation glucose burn in one step only. So it is like jumping from the two story building. You will get injured. In biological oxidation, you get the intermediate products of low energy. (At few times high energy.) As ultimate products of both biological oxidation and chemical oxidation are same, the energy released is same. Not a photon more or less, provided temperature of glucose and temperature and pressure of end products is same. In biological oxidation, you get some energy stored in body in the form of ATP molecules. Which is utilized for various metabolic processes, required by cell. Rest is released in the form of heat. That is also useful to maintain body temperature. This is in accordance to the Law ofconservationof energy in chemical reactions. It remains constant and can change the form of energy.
water
Oxidation is a reaction in which an atom, molecule or compound loses an electron. OIL = Oxidation Is Lost; RIG= Reduction Is Gain LEO = Lose Electron in Oxidation; GER = Gain Electron in Reduction (LEO the lion says GER) Hydrolysis is a reaction in which a molecule or compound is broken down, by the addition of a water molecule (it is NOT the breaking of a water molecule into oxygen and hydrogen - that is a different reaction called electrolysis). An example of hydrolysis is the breaking down of maltose into 2 glucose molecules. A molecule of water is added, usually with an acid to catalyse the reaction, into a solution of maltose. You can therefore say that hydrolysis is a type of oxidation reaction, being as maltose loses glucose molecule (hence losing the electrons in the atoms of glucose).
The final products are carbon dioxide and water, and the total energy released is the same.
Carbon dioxide and water. C6H1206 (glucose) + 6O2 (atmospheric oxygen) ----> 6CO2 + 6H2O (and energy)
hey there Glucose+oxygen=>carbon dioxide+water or the environmental one hydrocarbon+oxygen=>carbon dioxide+water
Glucose is the solute; water is the solvent.