Cells that require the most chemical energy, such as muscle and liver cells, tend to contain numerous mitochondria because these organelles are the primary sites of ATP production through cellular respiration. Mitochondria efficiently convert nutrients into energy, utilizing oxygen to maximize ATP yield from glucose and fatty acids. The high energy demands of these cells necessitate an abundant supply of mitochondria to meet their metabolic needs. Consequently, the presence of mitochondria is directly correlated with the cell's energy requirements.
In a chemical reaction, energy must be conserved, so the difference in energy between the reactants and products must be accounted for. Since the reactants contain 385 kJ and the products contain 366 kJ, there is a net release of 19 kJ of energy. This energy is typically released as heat or light into the surroundings, ensuring that the total energy of the system and its environment remains constant.
In order for energy to be conserved during a chemical reaction where the reactants contain 385 kJ of chemical energy and the products contain 366 kJ, the difference of 19 kJ must be released to the surroundings. This energy is typically lost as heat, light, or sound, indicating that the reaction is exothermic. The law of conservation of energy states that energy cannot be created or destroyed, only transformed, so the released energy accounts for the discrepancy between the energy of reactants and products.
Yes, they do.
In this chemical reaction, the reactants have 385 kJ of chemical energy, while the products have only 366 kJ. This indicates that the reaction is exothermic, as it releases energy in the form of heat, resulting in a net loss of 19 kJ of energy. The difference represents the energy released to the surroundings during the reaction.
Plants contain chemical energy that was made from radiant energy in the form of sunlight during the process of photosynthesis.
endothermic reactions require energy
Gas IS not a kind of energy, but different gases can CONTAIN energy. Certain gases contain chemical energy (they can be burned). There is also energy related to the pressure on the gas.Gas IS not a kind of energy, but different gases can CONTAIN energy. Certain gases contain chemical energy (they can be burned). There is also energy related to the pressure on the gas.Gas IS not a kind of energy, but different gases can CONTAIN energy. Certain gases contain chemical energy (they can be burned). There is also energy related to the pressure on the gas.Gas IS not a kind of energy, but different gases can CONTAIN energy. Certain gases contain chemical energy (they can be burned). There is also energy related to the pressure on the gas.
Fossil fuels contain chemical energy.
Chemical energy
(Jaleb) Chemical energy.
Electrons contain energy stored in chemical bonds.
In a chemical reaction, energy must be conserved, so the difference in energy between the reactants and products must be accounted for. Since the reactants contain 385 kJ and the products contain 366 kJ, there is a net release of 19 kJ of energy. This energy is typically released as heat or light into the surroundings, ensuring that the total energy of the system and its environment remains constant.
All types of food contain chemical energy.
A battery is not a type of energy. It may CONTAIN chemical energy, if it is loaded.
They are substances so they are not forms of energy. They contain chemical energy.
batteries contain chemical energywhich can be transformed in to electricity .
In order for energy to be conserved during a chemical reaction where the reactants contain 385 kJ of chemical energy and the products contain 366 kJ, the difference of 19 kJ must be released to the surroundings. This energy is typically lost as heat, light, or sound, indicating that the reaction is exothermic. The law of conservation of energy states that energy cannot be created or destroyed, only transformed, so the released energy accounts for the discrepancy between the energy of reactants and products.