Metallic bonds are responsible for many properties of metals, such as conductivity. Why is this possible?(1 point)
Metals have low electronegativity, so they are conductive because they pass charges easily.
Two metals bonded together are going to be more conductive than a metal bonded with a nonmetal.
The bonds can shift because valence electrons are held loosely and move freely.
An attraction between a positive charge and a negative charge is created.
The correct answer is: The bonds can shift because valence electrons are held loosely and move freely.
Metallic bonds are responsible for many properties of metals, such as conductivity. Why is this possible?(1 point)
Metals have low electronegativity, so they are conductive because they pass charges easily.
Two metals bonded together are going to be more conductive than a metal bonded with a nonmetal.
The bonds can shift because valence electrons are held loosely and move freely.
An attraction between a positive charge and a negative charge is created.
The correct answer is: The bonds can shift because valence electrons are held loosely and move freely.
oops wrong question lol. i meant:
Between which types of elements do ionic bonds occur, and how do electrons act within the bond?(1 point)
metals and metals, electrons freely moving
nonmetals and metals, electrons shared
nonmetals and nonmetals, electrons shared
metals and nonmetals, electrons transferred
The correct answer is: metals and nonmetals, electrons transferred.
Which kind of bond would occur between sodium (Na, Group IA) and chlorine (Cl, Group VIIA)?(1 point)
covalent
ionic
no bond
metallic
The correct answer is: ionic.
Which type of bond and how many bonds would occur as carbon dioxide (CO2) is formed from carbon in Group IVA and oxygen in Group VIA?(1 point)
three metallic bonds
two ionic bonds
four covalent bonds
one covalent bond
The correct answer is: four covalent bonds.
How many covalent bonds is nitrogen (Group 5A) likely to form?(1 point)
two
three
five
four