Lab3A
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University of Washington *
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Course
101
Subject
Geology
Date
Dec 6, 2023
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Pages
30
Uploaded by peterwu2002
2022/4/23 15:47
Laboratory 3A: An Introduction to Minerals: ESS 101 B Sp 22: Introduction To Geology And Societal Impacts
https://canvas.uw.edu/courses/1545896/quizzes/1651017
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Laboratory 3A: An Introduction to Minerals
Due
Apr 24 at 11:59pm
Points
3.5
Questions
9
Available
Apr 15 at 9am - Apr 24 at 11:59pm
10 days
Time Limit
None
Allowed Attempts
2
Instructions
Attempt History
Attempt
Time
Score
LATEST
Attempt 1
52 minutes
3.5 out of 3.5
Answers will be shown after your last attempt
Score for this attempt:
3.5
out of 3.5
Submitted Apr 23 at 3:46pm
This attempt took 52 minutes.
ATTENTION
: You must complete this lab
BEFORE
you complete
Laboratory 3B: Mineral
Identification
. Lab 3A will teach you about the characteristics we use to describe minerals.
Lab 3B will have you use the characteristics to identify minerals.
If you do not first complete Lab 3A, Lab 3B will be difficult/impossible.
Find a PDF of this lab
here
.
Take the Quiz Again
Learning Goals
By completing this lab, students will learn:
The technical definition of a mineral
The different physical properties of a mineral and how they form
How to use common diagnostic properties to identify a mineral
2022/4/23 15:47
Laboratory 3A: An Introduction to Minerals: ESS 101 B Sp 22: Introduction To Geology And Societal Impacts
https://canvas.uw.edu/courses/1545896/quizzes/1651017
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Introduction
A. Minerals
Minerals are the basic building blocks that make up the solid Earth.
Therefore, any study of the solid Earth must begin with an
understanding of minerals.
A mineral, by definition, is a
(1)
naturally occurring,
(2)
solid,
(3)
usually
inorganic element or compound with a
(4)
definite crystalline structure
and
(5)
chemical composition which varies only within specific limits.
Common examples are quartz, diamond, garnet, talc, and halite (salt).
Some useful hints about what a mineral is/isn't:
1.
Although compounds produced in a laboratory can have many
of the characteristics of a mineral, they are not naturally
occurring and therefore are not minerals.
2. Minerals are solids
, therefore liquids and gases are not
considered minerals.
3.
Nearly all minerals are inorganic, that is, not produced by
living organisms.
4.
Minerals have a distinct crystalline structure
(Figure 3-1)
. Each
mineral has an orderly, predictable arrangement of atoms. For
example, the minerals graphite and diamond are both made of
carbon but what makes them unique is a significant difference
in the way the atoms are arranged (Figure 3-1). (A mineraloid
differs from a mineral in that it lacks crystalline structure (i.e.,
is amorphous). For example, opal is a mineraloid; it has the
same composition as quartz but lacks the crystal structure.)
5.
Minerals have a definite chemical composition that can be
expressed as a specific chemical formula. Quartz, for
instance, is composed of silicon and oxygen and has the
formula SiO2. Some minerals have more complex
compositions. Garnet's formula, for instance, is A3B2(SiO4)3,
where A and B represent a variety of elements such as Ca, Mg,
Fe, and Mn. Although the exact composition of garnet can
vary, the ratio between A and B is constant — 3 atoms of A for
every 2 atoms of B.
2022/4/23 15:47
Laboratory 3A: An Introduction to Minerals: ESS 101 B Sp 22: Introduction To Geology And Societal Impacts
https://canvas.uw.edu/courses/1545896/quizzes/1651017
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Figure 3-1.
The atomic structure of (a) diamond and (b) graphite.
Diagrammatic inserts show bonding relationships of carbon atoms. In diamond,
each carbon atom is strongly bonded (covalent bonds) to four adjacent carbon
atoms. In graphite, each carbon atom is strongly bonded to only three
neighboring atoms. Strongly bonded atoms in graphite occur in sheets, which
are only loosely attached to one another by weak van der Waal forces.
0 / 0 pts
Question 1
Laboratory Honor Statement
Cheating or plagiarism of any kind will not be tolerated in ESS 101.
This includes copying answers from a friend or classmate, copying
answers verbatim found on the internet or other literary sources, or
copying any work that may answer the question being asked. Make
sure you always use your own words when answering the questions in
the homework and cite appropriate references if you use them to help
you answer the question. Anyone caught violating the academic
code
of conduct
(https://www.washington.edu/cssc/for-students/academic-
misconduct/)
will be reported to the UW Academic Misconduct
representative.
2022/4/23 15:47
Laboratory 3A: An Introduction to Minerals: ESS 101 B Sp 22: Introduction To Geology And Societal Impacts
https://canvas.uw.edu/courses/1545896/quizzes/1651017
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I acknowledge that I have carefully read and understand the above
statement regarding the consequences of cheating and plagiarism, and
promise to complete my work in this class with honesty and
integrity.
Answer "True" below supporting your
acknowledgement.
True
False
0.2 / 0.2 pts
Question 2
These diagrams represent the attomic structures of two solids. The
spheres represent atoms that are bonded together. Which structure is a
mineral?
B
A
The unique composition and structure of minerals give them
each a unique set of physical properties. Minerals are classified
based on these physical properties.
During this lab you will
become familiar with the important
physical
properties
of minerals and
learn how to
identify the common rock-
forming minerals. Your ability to determine the physical properties of
2022/4/23 15:47
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minerals by observation and testing is more important than merely
being able to recognize and name minerals. You will be given the
opportunity to identify many of these minerals in the future, when we
examine rocks.
Minerals vs. Rocks
A
rock
is any natural aggregate of minerals, mineraloids, glass, and/or
organic particles. For example, granite is a rock composed of several
different minerals, rock salt is a rock composed of a single mineral
(halite), rock opal is a rock composed of the mineraloid opal, obsidian
is a rock composed of volcanic glass, and coal is a rock composed of
organic particles.
Mineral identification is an important component of
geology because the mineral composition of a given rock can tell us a
lot about how and where the rock formed.
Classification Systems
Classification schemes can be subdivided into two principal types,
descriptive
and
interpretive.
Descriptive schemes are based on
observable physical properties, while interpretive schemes imply a
knowledge of how those properties were acquired. We classify
minerals based on their physical properties. These properties reflect
the chemical elements and crystalline structure of the mineral.
Therefore, mineral classification is basically descriptive. When we
learn about rocks in future laboratories we will also focus on
interpretive classification schemes.
Physical Properties of Minerals
Because a mineral's physical properties are based on its specific
chemical composition and crystalline structure, these properties are
unique to each mineral and can be used for identification. The
following is a discussion of common properties used for mineral
identification.
In this week’s two-part lab, you will be learning how to recognize
and use diagnostic mineral properties to identify 14 common
rock-forming minerals (Figure 3-2). Each mineral has been
assigned a specimen number for this lab (M1 - M14). In this part of
2022/4/23 15:47
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the lab, we will introduce you to specific diagnostic properties
that can be used to help identify minerals. In the next part of the
lab, you will be asked to use these diagnostic properties to
identify the 14 minerals.
Figure 3-2.
Fourteen common rock-forming minerals (M1 - M14 will be
identified in the laboratory this week using their physical (diagnostic)
properties. The diagnostic tools we will use to assist us in this identification
are shown on the bottom of the image.
Luster
Luster
refers to the way that light interacts with a mineral’s surface. To
understand luster, it is helpful to think about some of the basic
properties of light. When light reaches a material surface, it can be
reflected, absorbed, and/or transmitted through the material (Figure 3-
3). All objects that you can see reflect some light, but they may
also
absorb or transmit some light. The combination of these three
properties defines the way that the material appears to our eyes.
Reflective
materials reflect light back to your eye. However, even a
mirror does not reflect all light; some is absorbed or can be
transmitted.
Absorptive
materials absorb some or all light, which changes their
color. However, if all light were absorbed, we wouldn’t be able to
see the object.
Transmissive
materials allow light to pass through, like a window.
Materials with high transmissivity are called translucent (some light
passes through) or transparent (most light passes through), and
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