The most notable factor affecting how wounds heal is the clotting factor of plasma. If the clotting factor is weak, scars are more likely to form.
More likely
Large wounds can leave a scar because the healing process involves the production of collagen fibers, which can be thicker and more pronounced in larger wounds. This excess collagen may lead to the formation of a scar as the skin repairs itself. Additionally, the skin may not be able to regenerate perfectly, resulting in a visible mark on the skin.
An element with a large negative electron affinity is more likely to form a negative ion because it strongly attracts electrons to achieve a stable electron configuration. This results in the formation of negatively charged ions.
Group 1 or group 2 elements with group 16 or group 17 elements. In general, if the electronegativity difference between the two atoms is more than 1.7 in Pauling's scale, then the two atoms form ionic bond.
Elements with electrons that are not tightly held are more likely to form ionic bonds because they have a tendency to lose or gain electrons to achieve a stable electron configuration. This typically occurs in elements with large differences in electronegativity, leading to the transfer of electrons and the formation of ionic compounds. Bonds between such elements are typically less likely to form covalent bonds.
Grammatically - 'twice as likely' is the correct form.
An infection is more likely to occur when a person has a low immunity or is on long term antibiotic therapy. Poor hygiene when treating wounds or dealing with personal care can aid the transmission of infection.
Ionic bond is between positively charged atom with a negatively charged atom The best example is salt: Na+ with Cl- to give NaCl
Thunderstorms are more likely to form in areas that have large water bodies like the seas and lakes. Places that experience the convectional rainfall is the place that will experience thunderstorms on a regular basis.
When the difference in electronegativity is large, the tendency is for the more electronegative atom to take the electron and the less electronegative atom to give the electron. This results is an ionic bond as opposed to a covalent bond, where the electrons are shared. So, the answer to you question is they would form a bond by transferring electrons.
Pyroclastic material is more likely to form with high viscosity magma.