Phosphorus has 10 more electrons.
A neutral atom of phosphorus has 15 electrons, 3 in the outer 3p shell There are 5 electrons in a neutral atom of boron, 1 in the outer 2p shell.
Phosphorus has 5 valence electrons and it needs 3 more electrons to complete its octet and achieve stability.
18. Phosphorus posses 15 electrons and 15 protons, respectively its charge is 0.By accepting 3 more electrons, with their negative charge the total charge of the atom would decrease by 3.So the total charge would be -3 and the total number of electrons would be 18.
Phosphorus typically gains or loses electrons through chemical reactions, particularly in the formation of phosphates. In its most common oxidation states, phosphorus can lose three electrons to achieve a +3 oxidation state or five electrons for a +5 state. It can also gain electrons when forming compounds with more electronegative elements, achieving negative oxidation states like -3 in phosphides. Overall, phosphorus can both gain and lose electrons depending on the chemical context.
Carbon has a larger atomic mass than boron because it has more protons, neutrons, and electrons. The atomic mass of an element is the sum of the protons and neutrons in the nucleus of an atom, and carbon has more of these subatomic particles compared to boron.
A metal in the alkali metal family has one valence electron where as a metal in boron family has three valence electrons. It is easy to remove one valence electrons than three. So alkali metals will be more reactive.
Phosphorus has 5 valence electrons and it needs 3 more electrons to complete its octet and achieve stability.
Phosphorus has more outer electrons than silicon. Phosphorus has 5 outer electrons in the third energy level, while silicon has 4 outer electrons in the third energy level.
Aluminium has three valence electrons and phosphorous has five, hence the latter has more.
Boron typically forms compounds with only 6 electrons in its outer shell. Phosphorus can exceed the octet rule and accommodate more than 8 electrons due to the availability of d orbitals. Sulfur can have more than 8 electrons around it in certain compounds, such as sulfite and sulfate ions.
The boron atom has fewer electrons than the lithium atom. Lithium has 3 electrons in its neutral state, while boron has 5 electrons.
Phosphorus has more outer electrons than silicon. Phosphorus has 5 outer electrons (in group 15), while silicon has 4 outer electrons (in group 14) in its electronic configuration.
The atomic number of phosphorus is 15.its electronic configuration is 2,8,5.outermost shell has 5 electrons. it can accommodate 3 more electrons to complete its octet.so its valency is 3. and it has 5 electrons on its valence shell.
The atom with seven valence electrons and two more protons than phosphorus is chlorine (Cl). Chlorine has 17 protons and 7 valence electrons, while phosphorus has 15 protons and 5 valence electrons.
There are 15 electrons in a phosphorus atom, but only if it is neutral. The element phosphorus, a nonmetal, is not found free in nature because it is reactive and has loaned out two or more electrons. It has a number of oxidation states ranging through 2, 3, 4 and 5 (and also a -3). The number electrons in a given phosphorus atom will vary depending on its chemical circumstances.
The charge of a boron ion is typically +3. Boron has 3 valence electrons, so it tends to lose these electrons to achieve a more stable electron configuration, resulting in a +3 charge.
Boron and fluorine in the trivalent boron compound BF3 have only 6 electrons in the valence shell.Oxygen and nitrogen in nitric oxide, NO, contain one or more atoms which have an odd number (one UNpaired '.' ) of electrons. Lewis dot structure |N.=O
Lewis Acid are able to accept electrons. Boron in Boron Trifluoride only contains 6 electrons, thus making it able to receive 2 more electrons to complete it's octet. Also, Boron is an exception that it is stable with a sixtet, which makes it BF3 a neutral molecule.