0
What else can I help you with?
The elements most likely to form more than one type of ion are the?
The pudding is delicious here try some yum!
Why can different numbers of metal and nonmetal atoms create ionic bonds together?
This normally due to the ability of some metals to have more than one ion. These are the transition metals and say iron has two ions, Fe2+ and Fe3+ . Mercury forms a diatomic ion Hg22+. Some non metals can form more than one sort of ion. Examples are sulfur which can form S2- and S22- and iodine can form the I3- ion
When naming a transition metal ion that can have more than one common ionic charge the numeric value of the charge is indicated by what?
The numeric value of the charge for a transition metal ion is indicated by Roman numerals in parentheses following the metal ion's name. For example, iron (II) and iron (III) represent the +2 and +3 charges of iron, respectively.
Why metals form positive and nonmetal form negative ion?
metals form positive ion because they always lose electrons and after losing electron they have excess of positive charge and have deficiency of electrons.another reason is that metals have more than 3 valence electrons and have low ionization energy
Hydroxides of metals form what class of compound?
Hydroxides of metals form a class of compounds known as metal hydroxides. These compounds consist of a metal ion bonded to a hydroxide ion (OH-), resulting in a basic chemical species. Metal hydroxides are often characterized by their ability to dissociate in water to form metal cations and hydroxide ions.
What kind of atoms what typically form an ion the bond?
metals and non-metals
Why are alkali metals more reactive than transition metals?
Groups 3-12 do not have individual names. Instead, all of these groups are called transition metals. The atoms of transition metals do not give away their electrons as easily as atoms of the Group 1 and Group 2 metals do. So, transition metals are less reactive than alkali metals and alkaline-earth metals are.
The elements most likely to form more than one type of ion are the?
The pudding is delicious here try some yum!
What charge do metals have when they form a ion?
net negative charge
Some transition metals form more than one type of ion. How are these ions distinguished from one another in writing formulas for compounds?
Transition metals that form more than one type of ion are distinguished by using Roman numerals in parentheses to indicate their oxidation state in the compound's formula. For example, iron can form Fe²⁺ and Fe³⁺ ions, which would be represented as iron(II) and iron(III) in compound formulas. This notation clarifies the specific charge of the metal ion involved in the compound, ensuring accurate communication of its chemical composition.
What ion charges do the alkali metals form?
Alkali metals forn cations with the chrage +1.
What kind of metals do ions form?
positive
Why can different numbers of metal and nonmetal atoms create ionic bonds together?
This normally due to the ability of some metals to have more than one ion. These are the transition metals and say iron has two ions, Fe2+ and Fe3+ . Mercury forms a diatomic ion Hg22+. Some non metals can form more than one sort of ion. Examples are sulfur which can form S2- and S22- and iodine can form the I3- ion
What ion will a metal form?
Metals lose electrons to form positive ions, or also known as cations.
Which atom will form an ion sodium or oxygen?
sodium
Is sodium an example of an element that can form more than one ion?
Sodium forms 1 type of ion; namely, Na+.
Some transition metals form more than one type of ion how are these ions distinguished from one another in writing formulas for compounds?
Transition metals that can form more than one type of ion are distinguished by using Roman numerals in parentheses after the metal's name in the compound's formula. For example, in iron(II) chloride (FeCl₂), the Roman numeral II indicates that iron has a +2 charge, while in iron(III) chloride (FeCl₃), the Roman numeral III indicates a +3 charge. This notation helps clarify the specific oxidation state of the metal ion in the compound.
