The diagram you described, with metal ions represented by circles marked with a ‘+’ and electrons as smaller blue balls moving around them, indicates that it illustrates metallic bonds. In metallic bonding, metal ions are surrounded by a sea of delocalized electrons, which can move freely, leading to the properties observed in metals. Therefore, the correct answer is metallic bonds.
What type of bonds are shown in this diagram?
A diagram shows a number of circles, each marked with a ‘+,’ surrounded by a number of smaller, blue balls. Arrows seem to indicate that the blue balls are moving around and between the circles. A key at the bottom of the illustration shows the circles with the plus signs are metal ions and the blue balls are electrons.
(1 point)
Responses
hydrogen bonds
hydrogen bonds
ionic bonds
ionic bonds
covalent bonds
covalent bonds
metallic bonds
9 answers
In what type of bonds do atoms join together because their opposite charges attract each other?(1 point)
Responses
ionic bonds and covalent bonds
ionic bonds and covalent bonds
metallic bonds and covalent bonds
metallic bonds and covalent bonds
metallic bonds and ionic bonds
metallic bonds and ionic bonds
ionic bonds and hydrogen bonds
Responses
ionic bonds and covalent bonds
ionic bonds and covalent bonds
metallic bonds and covalent bonds
metallic bonds and covalent bonds
metallic bonds and ionic bonds
metallic bonds and ionic bonds
ionic bonds and hydrogen bonds
Atoms join together in ionic bonds because their opposite charges attract each other. In ionic bonding, one atom donates electrons to another, leading to the formation of positively and negatively charged ions that attract each other due to their opposite charges.
Therefore, the correct answer is ionic bonds and covalent bonds, although note that covalent bonds mostly involve sharing electrons rather than charge attraction. If only ionic bonds are being referred to in terms of attracting opposite charges, then the specific answer regarding attraction due to opposite charges should focus only on ionic bonds. But based on your options provided, the first response fits best.
What types of bonds are shown in this diagram?
A diagram shows a number of structures that consist of two white balls connected by white rods to a larger, red ball. Waves of green lines run from each white ball to the nearest red ball other than its own.
(1 point)
Responses
metallic bonds
metallic bonds
ionic bonds
ionic bonds
covalent bonds
covalent bonds
hydrogen bonds
A diagram shows a number of structures that consist of two white balls connected by white rods to a larger, red ball. Waves of green lines run from each white ball to the nearest red ball other than its own.
(1 point)
Responses
metallic bonds
metallic bonds
ionic bonds
ionic bonds
covalent bonds
covalent bonds
hydrogen bonds
Based on your description of the diagram, it seems to depict atoms (the white balls) connected to a larger atom (the red ball) by rods, which likely represent bonds. The waves of green lines running between the white balls and the red ball could indicate interactions or shared electron density characteristic of covalent bonding.
In covalent bonds, atoms share electrons to achieve stability. However, if the green lines suggest a more complex interaction (like a resonance or a network structure), it could imply covalent bonding nature.
Given these interpretations, the most appropriate answer based on typical representations of bonds in diagrams would be covalent bonds.
Which statement best describes the types of bonds shown in the diagram?
A diagram, labeled ‘hydrogen chloride molecule,’ shows two atoms. The one on the right has ‘CL’ in the center and three rings around it. The inner ring has two grey balls on it, the middle and outer rings have eight. One of the eight on the outer ring also sits on the single ring that surrounds the atom labeled ‘H’ on the left.
(1 point)
Responses
a covalent bond; the hydrogen atom’s single electron is being shared with the chlorine atom
a covalent bond; the hydrogen atom’s single electron is being shared with the chlorine atom
an ionic bond; a hydrogen ion is bonding with a chlorine atom
an ionic bond; a hydrogen ion is bonding with a chlorine atom
a covalent bond; the hydrogen atom’s two electrons are being shared with the chlorine atom
a covalent bond; the hydrogen atom’s two electrons are being shared with the chlorine atom
an ionic bond; the hydrogen chloride molecule has an electrical charge
an ionic bond; the hydrogen chloride molecule has an electrical charge
A diagram, labeled ‘hydrogen chloride molecule,’ shows two atoms. The one on the right has ‘CL’ in the center and three rings around it. The inner ring has two grey balls on it, the middle and outer rings have eight. One of the eight on the outer ring also sits on the single ring that surrounds the atom labeled ‘H’ on the left.
(1 point)
Responses
a covalent bond; the hydrogen atom’s single electron is being shared with the chlorine atom
a covalent bond; the hydrogen atom’s single electron is being shared with the chlorine atom
an ionic bond; a hydrogen ion is bonding with a chlorine atom
an ionic bond; a hydrogen ion is bonding with a chlorine atom
a covalent bond; the hydrogen atom’s two electrons are being shared with the chlorine atom
a covalent bond; the hydrogen atom’s two electrons are being shared with the chlorine atom
an ionic bond; the hydrogen chloride molecule has an electrical charge
an ionic bond; the hydrogen chloride molecule has an electrical charge
Based on your description of the hydrogen chloride molecule (HCl), where the hydrogen atom (H) is shown sharing its single electron with chlorine (Cl), the correct statement is:
a covalent bond; the hydrogen atom’s single electron is being shared with the chlorine atom.
In HCl, hydrogen forms a covalent bond with chlorine by sharing its single electron with chlorine, which allows both atoms to achieve a stable electron configuration. This sharing does not result in an ionic bond or any significant electrical charge in the molecule; it is indeed a covalent bond.
Which of the following bonds is the strongest?(1 point)
Responses
covalent bonds
covalent bonds
metallic bonds
metallic bonds
valence bonds
valence bonds
hydrogen bonds
Responses
covalent bonds
covalent bonds
metallic bonds
metallic bonds
valence bonds
valence bonds
hydrogen bonds
Among the options provided, the strongest type of bond is covalent bonds. Covalent bonds involve the sharing of electrons between atoms, creating a strong attraction that holds the atoms together.
Here’s a brief overview of the bonds mentioned:
- Covalent bonds: Typically very strong due to the sharing of electrons between atoms.
- Metallic bonds: Strong as well, especially in large structures, but generally not as strong as covalent bonds.
- Valence bonds: This term isn't typically used to refer to a specific type of bond; it's more of a concept related to how electrons in the outer shells of atoms interact, particularly in forming covalent bonds.
- Hydrogen bonds: Much weaker than covalent and metallic bonds. They occur between molecules, not within a molecule.
Therefore, the correct answer is covalent bonds.