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The increased frequency increases the kinetic energy of the single electron ejected. Remember that the incident light releases a single electron when the threashod frequency is reached
Electron Microscope. Not sure though
decreased
Photoelectric effect
No. The wavelength of the light determines whether an electron will be ejected from an atom.
No object can vibrate at the wavelength of light. wavelength of light depends on the intensity of light and electron movements.
This is because of the the fact that , the inter-particle interaction between electron-proton and electron-neutron, taken one attosecond to cease, only after which can a photoelectron be liberated from the forces of attraction and repulsions within the atom.
in the electron transport chain
it increased your knowledge you every detail of the cell .it shows you like the inside and every other little detail
This is the equation which indicates the appearance of diffraction pattern caused by a molecule in path of the electron beam. 1 Molecular representation of electron diffraction pattern is extended using wierl equation
Ioding when combined in a compound is usually combined as the iodide. Iodide ions are negatively charged (ie each ion has an extra electron compared with an iodine atom). When elemental iodine is liberated, iodine atoms are formed from these ions which in turn pair up to form iodine molecules. When an Iodine ion changes into an atom it must lose the extra electron. From the acronym 'OILRIG' (Oxidation Is Loss of electrons, Reduction Is Gain of electrons) it is clear that as the elemental iodine has formed because of the loss of an electron the process must involve oxidation.
Its energy level must be increased.