Skip to main content
Ch.12 - Solids and Modern Materials
Brown - Chemistry: The Central Science 14th Edition
Brown14th EditionChemistry: The Central ScienceISBN: 9780134414232Not the one you use?Change textbook
All textbooksBrown 14th EditionCh.12 - Solids and Modern MaterialsProblem 102
Chapter 12, Problem 102

What evidence supports the notion that buckyballs are actual molecules and not extended materials? (a) Buckyballs are made of carbon. (b) Buckyballs have a well-defined atomic structure and molecular weight. (c) Buckyballs have a well-defined melting point. (d) Buckyballs are semiconductors. (e) More than one of the previous choices.

Verified step by step guidance
1
Step 1: Understand the definition of a molecule. A molecule is a group of atoms bonded together, representing the smallest fundamental unit of a chemical compound that can take part in a chemical reaction.
Step 2: Consider the characteristics of buckyballs. Buckyballs, or fullerenes, are composed of carbon atoms arranged in a spherical structure.
Step 3: Evaluate option (b). A well-defined atomic structure and molecular weight are indicative of a discrete molecule, as opposed to an extended material which lacks a specific molecular weight.
Step 4: Evaluate option (c). A well-defined melting point suggests a specific molecular structure, as extended materials typically do not have a sharp melting point.
Step 5: Conclude that more than one option supports the notion that buckyballs are molecules, specifically options (b) and (c).

Key Concepts

Here are the essential concepts you must grasp in order to answer the question correctly.

Molecular Structure

Molecular structure refers to the arrangement of atoms within a molecule, including the types of bonds and the spatial orientation of the atoms. Buckyballs, or fullerenes, have a distinct spherical shape formed by 60 carbon atoms arranged in a pattern similar to a soccer ball, which is a key indicator of their molecular nature.
Recommended video:
Guided course
02:08
Molecular Formula

Molecular Weight

Molecular weight is the mass of a molecule calculated by summing the atomic weights of all atoms in the molecule. Buckyballs have a specific molecular weight of approximately 720 g/mol, which supports their classification as discrete molecules rather than extended materials, which typically do not have a defined molecular weight.
Recommended video:
Guided course
03:45
Weight Conversion Example

Phase Transition Properties

Phase transition properties, such as melting points, indicate the behavior of a substance when it changes states. Buckyballs exhibit a well-defined melting point, which is characteristic of molecular substances, as opposed to extended materials that may not have a clear melting point due to their continuous structure.
Recommended video:
Guided course
03:22
Phase Changes in Diagrams
Related Practice
Textbook Question

Which statement correctly describes a difference between graphene and graphite? (a) Graphene is a molecule but graphite is not. (b) Graphene is a single sheet of carbon atoms and graphite contains many, and larger, sheets of carbon atoms. (c) Graphene is an insulator but graphite is a metal. (d) Graphite is pure carbon but graphene is not. (e) The carbons are sp2 hybridized in graphene but sp3 hybridized in graphite.

833
views
Textbook Question

Pure iron crystallizes in a body-centered cubic structure, shown in the figure. but small amounts of impurities can stabilize a facecentered cubic structure. Which form of iron has a higher density?

687
views
Textbook Question

Imagine the primitive cubic lattice. Now imagine pushing on top of it, straight down. Next, stretch another face by pulling it to the right. All angles remain 90°. What kind of primitive lattice have you made?

512
views