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The lower the the Atomic Number, the higher the Ionic Energy.
The lower the the Atomic Number, the higher the Ionic Energy.
lower energy
Nuclear Fusion only releases energy when elements that are higher than what Nuclear Fusion produces certain sotopes of lighter elements.
Sounds, which are mechanical energy, vary in both frequency and amplitude. The pitch of a sound, the "highness" or "lowness" of that sound is a function of its frequency. Higher frequency equal higher pitch. The amplitude of a sound is the sound energy or "loudness" of the sound. The higher the amplitude of the sound wave, the more energy in the wave and the louder it is. source, medium and sender
The lower the the Atomic Number, the higher the Ionic Energy.
The lower the the Atomic Number, the higher the Ionic Energy.
lower energy
Higher level of energy and optimism.
No energy is gained when fusing iron into heavier elements. Heavier elements have a higher potential energy (nuclear energy) than iron.
I believe that it depends on the elements that you are combining or seperating.
The electro negativity of Nitrogen is 3.04 and the electro negativity of Hydrogen is 2.10. If you subtract the two numbers, you will have the electro negativity difference.Eg3.04 - 2.10= 0.94This works for all of the elements on the periodic table the same way.
Nuclear Fusion only releases energy when elements that are higher than what Nuclear Fusion produces certain sotopes of lighter elements.
compared to what. All other elements... NO, higher that potassium ... yes
It depends on your definition of high energy. Electrons close to the nucleus have a high positive energy and will require a lot of energy to elevate them to higher orbitals. Electrons far away from the nucleus have the potential to give off a lot of energy falling to inner orbitals.
Cesium has a much higher energy content than silicon. It belongs to one of the most chemically active group of elements, the alkali metals, and in turn is one of the more active in that group.
The intra and inter molecular forces will help to determine the higher boiling.Intra molecular forces are Polar/Non-polar covalent bonds and ionic bonds. Covalent bonds are stronger than ionic bonds.Polar covalent bonds will have a higher boiling point because non-polar covalent bonds are only affected by London forces.Intermolecular forces are hydrogen bonding, diapole-diapole and London. All molecules have London forces.Also the higher the electro-negativity the higher the boiling point.If all of the intra and inter molecular forces are the same, refer to the electro-negativity and size. The greater the electro-negativity and size, the higher the boiling point.