The answer is:
1. aerobic respiration of a glucose molecule
Beacuse when you release energy out of your body or somthing, somthing has to take in the energy so absorbing;SO, it's like a chain reaction you release somthing els takes in, like humans breath oxygen plants breath our carbon dioxide and plants give us oxygenSo, it differs because when energy-realses somthing needs to take that energy in as in absorbing
Exothermic (hyperthermic) reaction: a chemical reaction that releases energy,*Endothermic (hypothermic) reaction: a chemical reaction that absorbs energy.** Energy = heat, light, etc.The direction of Heat transfer:Exothermic reactions transfer heat energy to the environment.Endothermic reactions transfer heat energy from the environment .
No, not all fuels release the same amount of energy when burned. Different fuels have varying energy densities, which is the amount of energy released per unit of mass or volume. For example, fossil fuels like gasoline and diesel generally have higher energy content compared to biomass or biofuels. Factors such as chemical composition and the presence of impurities also influence the energy output of different fuels.
for every reaction there is a minimal amount of energy required. sometimes this amount of energy is provided by the environment and sometimes not. when the energy is not provided by the environment heating is required. all of this is a result of the collisions of atoms .they need energy to form products with other atoms. this energy is obtained from the environment
The bottom of the food pyramid (plants mostly) have the greatest amount of energy available. The best argument for vegetarianism I ever heard.
A nuclear reaction, such as nuclear fission or fusion, can release the greatest amount of energy compared to other types of reactions like chemical reactions. Nuclear reactions involve the breaking or joining of atomic nuclei, which release huge amounts of energy as a result of the mass-energy equivalence principle (E=mc^2).
If a reaction in one direction releases energy, then the same reaction in the other direction will absorb the same amount of energy. This is because energy is conserved in a reversible reaction, with the release and absorption of energy being equal and opposite.
The relative amount of energy released in chemical reactions varies depending on the specific reaction. Some reactions release a lot of energy, while others release less or even absorb energy. This energy release or absorption is known as the reaction's enthalpy change.
Nuclear reactions release the greatest amount of energy per kilogram of reactants compared to chemical reactions. For example, the fusion of hydrogen into helium in the sun releases vast amounts of energy.
The release of excess binding energy.
Activation energy is the energy required to start a chemical reaction. If the activation energy is higher than the energy released by the reaction, the reaction will absorb energy and be endothermic. If the activation energy is lower than the energy released by the reaction, the reaction will release energy and be exothermic.
yes, we can get the greatest amount of energy at the producer level.
aerobic respiration of a glucose molecule.anaerobic respiration of a glucose molecule.synthesis of a chlorophyll molecule.hydrolysis of a cellulose molecule.The answer is:1. aerobic respiration of a glucose molecule
true activation energy is the minimum amount of energy needed to start a chemical reaction
The amount of energy released from a fission reaction is much greater than that from a chemical reaction because fission involves the splitting of atomic nuclei, leading to a significant release of nuclear binding energy. This energy release is millions of times greater than the energy released in chemical reactions, which involve breaking and forming chemical bonds.
The amount of energy needed for a reaction to take place is called the activation energy. It is the minimum amount of energy required for the reactants to transform into products. This energy is needed to break bonds in the reactant molecules before new bonds can be formed.
Activation energy in chemistry is the amount of energy required to start a reaction. For every chemical reaction, a certain amount of energy is required to start it