Protons because a proton is positivelycharged & the electrons of negatively charged.
orbital is a region of space around the nucleus where an electron is likely to be found. ... The electron cloud is a visual model that represents all the orbitals in an atom.
A non-example of an atom is a carbon atom.
In ionic bonding, the metal loses the electron forming the cation and the non metal gains that electron forming the anion
electron affinity is the negative of electron gain enthalpy. for example, the electron gain enthalpy of fluorine is -328, and electron affinity is 328 which is -(-328)
A non example of macromolecule is
The nucleus
orbital is a region of space around the nucleus where an electron is likely to be found. ... The electron cloud is a visual model that represents all the orbitals in an atom.
No. For example, Hydrogen is an element with one valence electron, but it is a non-conductive gas under standard conditions.
A non-example of an atom is a carbon atom.
anion
Green is a non example of altitude.
In ionic bonding, the metal loses the electron forming the cation and the non metal gains that electron forming the anion
electron affinity is the negative of electron gain enthalpy. for example, the electron gain enthalpy of fluorine is -328, and electron affinity is 328 which is -(-328)
for example: metal-potassium nonmetal-fluorine
For example the sodium cation, Na+.
Since it has 1 valence electrons it is a metal and also non metal because it may loose 1 electron to stabilize or also gain 1 electron to stabilize. Metals loose electrons and non-metals gain electron and hydrogen have both metallic (to loose) and non-metallic (to gain) properties.
I think you should rephrase your question. there's no example of an electron, an electron is an electron. the description of an electron is something like: an electron is the smallest unit of matter that has a negative charge. this charge is 1.602 x 10-19 C. it can be found in the electron cloud surrounding the nucleus of an atom. electric current is the directional movement of electrons in a conductive metal.