What type of solid is it: amorphous, ionic, molecular, covalent network, or metallic?

Solutions

Expert Solution

There are two main categories of solids—crystalline solids and amorphous solids. Crystalline solids are those in which the atoms, ions, or molecules that make up the solid exist in a regular, well-defined arrangement. The smallest repeating pattern of crystalline solids is known as the unit cell, and unit cells are like bricks in a wall—they are all identical and repeating. The other main type of solids are called the amorphous solids. Amorphous solids do not have much order in their structures. Though their molecules are close together and have little freedom to move, they are not arranged in a regular order as are those in crystalline solids. Common examples of this type of solid are glass and plastics.

There are four types of crystalline solids:

Ionic solids—Made up of positive and negative ions and held together by electrostatic attractions. They’re characterized by very high melting points and brittleness and are poor conductors in the solid state. An example of an ionic solid is table salt, NaCl.

Molecular solids—Made up of atoms or molecules held together by London dispersion forces, dipole-dipole forces, or hydrogen bonds. Characterized by low melting points and flexibility and are poor conductors. An example of a molecular solid is sucrose.

Covalent-network (also called atomic) solids—Made up of atoms connected by covalent bonds; the intermolecular forces are covalent bonds as well. Characterized as being very hard with very high melting points and being poor conductors. Examples of this type of solid are diamond and graphite, and the fullerenes. As you can see below, graphite has only 2-D hexagonal structure and therefore is not hard like diamond. The sheets of graphite are held together by only weak London forces!

Metallic solids—Made up of metal atoms that are held together by metallic bonds. Characterized by high melting points, can range from soft and malleable to very hard, and are good conductors of electricity.

genius_generous answered 1 year ago

Next > < Previous

Related Solutions

Which solid is conductive? Covalent Network solid Metallic solid Ionic solid Molecular solid

Classify each substance in the table as either a metallic, covalent network, ionic, or molecular solid....

Classify each substance in the table as either a metallic, covalent network, ionic, or molecular solid. Substance Appearance Melting Point Electrical Conductivity Solubility in Water X hard (not brittle), colorless 1722°C none insoluble Y brittle, white 771°C only if melted/dissolved soluble Z shiny, ductile 1907°C high insoluble Substance X metalliccovalent network ionicmolecular Substance Y metalliccovalent network ionicmolecular Substance Z metalliccovalent network ionicmolecular †

MATCH EACH TYPE OF CRYSTALLINE SOLID TO THE APPROPRIATE EXAMPLE: 1. ATOMIC 2.METALLIC 3.IONIC 4. NETWORK...

MATCH EACH TYPE OF CRYSTALLINE SOLID TO THE APPROPRIATE EXAMPLE: 1. ATOMIC 2.METALLIC 3.IONIC 4. NETWORK COVALENT 5.MOLECULAR A)C (GRAPHITE) B)N2 C)Kr D)Au e)MgBr2

Different types of bonds including ionic, covalent, and metallic bonds. Describe each type of bond and...

Different types of bonds including ionic, covalent, and metallic bonds. Describe each type of bond and come up with an analogy to help describe each type of bond. For example: “A ______ bond is like [insert everyday example of something you might experience in the normal everyday world like kids sharing or a parking lot]“.

Explain the difference between the properties of ionic and covalent (molecular) compounds.

Which type of bond is related to the number 007? -ionic -covalent -metalic

Describe the formation of ionic and covalent compounds. Identify a compound as ionic or covalent. Using...

Describe the formation of ionic and covalent compounds. Identify a compound as ionic or covalent. Using charge balance, write the correct formula for an ionic compound (including those with polyatomic ions). Write the correct molecular and empirical formula for molecular compounds. Given the formula of a covalent or ionic compound (including polyatomic ions), write the correct name. Apply the basic rules guiding Lewis dot structures to draw the configuration for individual atoms, ionic compounds (including those with polyatomic ions), and...

Which of the following is an example of an amorphous solid?

Which of the following is an example of an amorphous solid? 01. Water 02. Salt 03. Gold 04. Soot 05. Diamond

What is the difference between polar covalent, nonpolar covalent, and ionic bonds? A) The number of...

What is the difference between polar covalent, nonpolar covalent, and ionic bonds? A) The number of protons in the atoms in the bond. B) The electronegativity difference between the atoms in the bond. C) How many electrons are in the bond between the atoms. D) How many valence electrons each atom in the bond has.

Question 21 What is the fundamental difference between covalent and ionic bonding? In a covalent bond,...

Question 21 What is the fundamental difference between covalent and ionic bonding? In a covalent bond, the partners share a pair of electrons; in an ionic bond, one partner accepts electrons from the other. Covalent bonds form between atoms of the same element; ionic bonds form between atoms of different elements. Covalent bonding involves only the outermost electron shell; ionic bonding also involves the next electron shell inside the outermost shell. In covalent bonding, both partners end up with filled...

Subjects