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What are four ways an atom can form bonds with other atoms?
By ionic bond, covalent bond, coordinate bond and hydrogen bond
What are two ways through valence electrons move between atoms?
They are either shared (covalent bond) or one donates and the other takes the elctrons (ionic bond).
What determines how an atom bond with other atoms?
The way an atom bonds with other atoms is primarily determined by its electron configuration, particularly the number of valence electrons in its outer shell. Atoms tend to bond in ways that allow them to achieve a full outer shell, often following the octet rule, which typically involves gaining, losing, or sharing electrons. The type of bond—ionic, covalent, or metallic—depends on the nature of the atoms involved and their electronegativity differences. Overall, the interactions between the electrons of the atoms play a crucial role in determining the bonding behavior.
What causes substance to combine in different ways to make other substance?
Substances combine through chemical reactions when their atoms rearrange to form new molecules with different properties. This occurs when atoms bond to each other to achieve a more stable configuration, which can involve sharing electrons or transferring them between atoms. The resulting substances may have distinct physical and chemical properties compared to the original substances.
What are two ways in which valence electron move between atoms?
They are either transferred or shared. In ionic bonds, electrons are transferred, and shared in covalent bonds.
What are four ways an atom can form bonds with other atoms?
By ionic bond, covalent bond, coordinate bond and hydrogen bond
What can bond with carbon atoms and many other elements in many ways?
Carbon can bond with itself, and many other elements.
What are the three ways that atoms can bond with each other describe how each of these happen?
Ionic bond where electrons are transferred to form ions that attract by electrostatic charge Covalent bond where electrons are shared by both atoms Metallic bond where electrons are free to move around a lattice of metal atoms
What are two ways through valence electrons move between atoms?
They are either shared (covalent bond) or one donates and the other takes the elctrons (ionic bond).
Differentiate between ionic bond and covalent bond?
Covalent bonds occur when electrons are shared between atoms. Ionic bonds occur when one atom transfers electrons to another atom, forming positive and negative ions. The electrostatic attraction between the oppositely charged atoms form an ionic bond.
What are two ways in which the valence electrons of atoms participate in bond formation?
Valence electrons can be shared between atoms in covalent bonds, where they form overlapping electron clouds. Alternatively, valence electrons can be transferred from one atom to another in ionic bonds, resulting in the formation of positively and negatively charged ions that are attracted to each other.
What determines how an atom bond with other atoms?
The way an atom bonds with other atoms is primarily determined by its electron configuration, particularly the number of valence electrons in its outer shell. Atoms tend to bond in ways that allow them to achieve a full outer shell, often following the octet rule, which typically involves gaining, losing, or sharing electrons. The type of bond—ionic, covalent, or metallic—depends on the nature of the atoms involved and their electronegativity differences. Overall, the interactions between the electrons of the atoms play a crucial role in determining the bonding behavior.
What causes substance to combine in different ways to make other substance?
Substances combine through chemical reactions when their atoms rearrange to form new molecules with different properties. This occurs when atoms bond to each other to achieve a more stable configuration, which can involve sharing electrons or transferring them between atoms. The resulting substances may have distinct physical and chemical properties compared to the original substances.
What are two ways in which valence electron move between atoms?
They are either transferred or shared. In ionic bonds, electrons are transferred, and shared in covalent bonds.
What is it in atoms that attracts other atoms?
There are 3 ways Atoms "attract" other atoms. They are called bonds. These bonds are Hydrogen Bonds, Ionic Bonds, and Covalent Bonds. 1. Hydrogen Bonds: "...a hydrogen bond is a type of attractive intermolecular force that exists between two partial electric charges of opposite polarity. Although stronger than most other intermolecular forces, the hydrogen bond is much weaker than both the ionic bond and the covalent bond." http://www.edinformatics.com/interactive_molecules/hydrogen_bonds.htm 2. Ionic Bonds: They are bonds that are attracted by opposite charged ions. for example, Nacl (Sodium Chloride- Table Salt) is an ionic compound because Na (Sodium) has a +1 charge and Cl (Chlorine) has a -1 charge. Since opposite charged are attracted to one another, like a magnet, the Na and Cl for an Ionic Compound. FYI, ALL ionic compounds have a full valence shell making them stable. 3. Covalent Bonds: This bond is where 2 atoms share valence electrons. This is the strongest bond too. To answer the question, atoms want to become chemically stable (have a full valence shell) so they will "attract,"or bond to other atoms to become stable.
Why is diamond such a hard ad nonreactive substance?
Carbon atoms can bond to other carbon atoms in a variety of ways, but when they bond in a network, with all the atoms bonding to all the other atoms that surround them, it is a very strong bond, stronger than the bonds formed in other minerals. Strong bonds are, by definition, hard to break. Hence the material is very hard. Scratching it requires breaking bonds.
What characteristic of atoms allows them to bond with other atoms to form compounds?
They have electrons that can interact with the electrons from other atoms to form bonds. Both atoms are stabilized by having their electron clouds interact, and so this is a favorable interaction. In chemical reactions, bonds are both made and broken. When bonds are formed, the electron clouds of two nearby atoms interact to form a bond that holds the atoms together.
