you can use the absorption method or electricution and there is one more way that i don't know of.
Electrons can be excited by absorbing energy, typically in the form of light or heat. This energy pushes the electrons to higher energy levels within an atom. Once the excitation energy is removed, the electrons can release it as light or heat when they return to their original energy state.
Raise its energy level by light absorption, making it collide with another atom or electron, or heating it up.
Electrons give of light depending on what atom the electron comes from. the excitation is produced when the electrons get heated up.
when energy is supplied
Cock
Electrons excite atoms in a sample, which emit X rays characteristic of the elements within the sample.
Hydrogen plasma appears as a pinkish or purplish color due to the emission of specific wavelengths of light as the electrons in the plasma become excited and then de-excite.
Electrons in the outermost shell are valence electrons!
Electrons have a negative charge.
N(nitrogen) = 7 electrons 3O(three oxygen) = 3* 8 electrons = 24 electrons 7 electrons + 24 electrons = 31 electrons in NO3 ( nitrogen trioxide ) ==============================
required to excite the electrons of the chlorophyll and start the cyclic and non-cyclic phosphorylation?
sunlight to excite the electrons
For example when the electron absorb energy.
Photroph
During photosynthesis, visible light has enough energy to excite electrons in chlorophyll molecules within the chloroplasts of plant cells. This excitation of electrons allows them to undergo a series of reactions that eventually produce ATP and NADPH, which are essential for the synthesis of glucose and other organic compounds.
The light is absorbed by the chlorophyll. The light is then used to excite electrons.
X rays are generated by devices that excite electrons
Photons of light strike chlorophyll molecules and excite electrons.
When pigments absorb light, they gain energy from the light photons. This energy can cause the pigments to undergo a chemical change, leading to a shift in their molecular structure or electronic configuration. This results in the appearance of color in the pigment as certain wavelengths of light are absorbed and others are reflected or transmitted.
Light is needed to excite electrons in the electron transport chain to commence photosynthesis.
Balmer lines are produced by colliding hydrogen atoms with electrons excited to 2nd energy level. Cool stars don't have enough collision to excite the electrons, hot stars have too much collision and excite the electrons beyond 2nd energy level.
when electrons flow through a conductor then the material of the conductor offers resistance to excite the electrons in the conductor to release heat energy.