13 protons an easy way to remember what number of protons an element has is APES. A-atomic number, P-protons, E-electrons, S-same, so the atomic number and the numbers of protons and electrons are the same number
Finding the number of electrons in an atom is easy. You just have to know the atomic number of the element. The atomic number for Potassium is 19. That means Potassium has 19 electrons.
It is the number of protons alone that determines elemental identity. Period. Different atoms of the sameelement can have different numbers of isotopes, called isotopes, but the nature of the element itself - its chemical identity - is determined by the number of protons in the nucleus. Only that.
The atomic number, or Z, is the number of protons in the nucleus of an atom of an element. This is what determines what element an atom is. A link can be found below.
You would have a different element. This is not something that is easy to do in practice. It's nuclear physics, not something that happens in the test tube.
Finding the electron of an element is easy. In if find through atoms which positively charged protons and the negatively charged electrons.
The number of electrons is equal to the number of protons in that atom. An easy way to view that is with the Bohr Model.
The number of electrons in the outermost energy shell is usually used in finding the valency of a given element. For instance elements that have two electrons in the outermost energy shell have valency 2.
that sounds easy but could you be more specific, which element.
13 protons an easy way to remember what number of protons an element has is APES. A-atomic number, P-protons, E-electrons, S-same, so the atomic number and the numbers of protons and electrons are the same number
Finding the number of electrons in an atom is easy. You just have to know the atomic number of the element. The atomic number for Potassium is 19. That means Potassium has 19 electrons.
That's an easy question^.^..Katon means "fire element like "Suiton" water element "Futton" wind element etc.
This is determined by the element's reactivity. Elements that are highly reactive will easily combine with other substances, while elements with low reactivity will combine more slowly or require specific conditions to react. Reactivity is based on the element's position on the periodic table and the number of electrons in its outer shell.
Finding the total number of electrons is easy. Assuming the atom is electrically neutal, the atomic number (always the number of protons) is also the number of electrons. This is because the protons are positively charged and the electrons are negatively charged, and a neutral atom will have a net charge of zero. Keep in mind, not all elements exist as atoms of their elemental state. Many of them are more commonly found locked up in compounds because they're just too reactive to exist solo.
It is the number of protons alone that determines elemental identity. Period. Different atoms of the sameelement can have different numbers of isotopes, called isotopes, but the nature of the element itself - its chemical identity - is determined by the number of protons in the nucleus. Only that.
One example of an element that is not a good conductor and a good insulator is sulfur. Sulfur is a non-metallic element that is a poor conductor of electricity due to its lack of free electrons for easy electron flow. However, sulfur is a good insulator because its atoms are tightly bonded together, making it difficult for electricity to pass through.
Isotopes are atoms of the same element that have the same number of protons and electrons, but different numbers of neutrons. This results in isotopes having the same chemical properties but different atomic masses.