Elements are created that differ from the reactants.
Einstein's e=mc2 calculates the energy provided you have to mass defect (or the mass in which the product is subtracted from the reactants)
Nuclear processes that can release large amounts of energy.
Absorb neutrons. Examples are boron and cadmium
Examples: concentration of reactants, temperature, pressure, stirring etc.
Elements are created that differ from the reactants.
During fission, the energy released comes from converting mass into energy (calculated by Einstein's famous equation: E = mc2). Therefore, if a fission reaction releases energy, and it does, that energy came from converting mass into energy, thus reducing the mass of the reactants.
A part of mass is transformed in energy.
One examples of bulb is tulips ... One example of binary fission is bacteria.
Fission and fusion
catalysts which are in the same phase to that of reactants and products
binary fission is mainly four types : 1 simply binary fission eg. ameoba bacteria 2. longitudinal binary fissioneg. euglena 3.transverse binary fission eg paramecium, planaria4. oblique binary fission
Bacteria, Amoeba, and algae
1. Fission of uranium 235. 2. Fission of plutonium 239 . 3. Fusion of deuterium and tritium
Einstein's e=mc2 calculates the energy provided you have to mass defect (or the mass in which the product is subtracted from the reactants)
The two types of reproductions are fission and mitosis.
Nuclear processes that can release large amounts of energy.