the molar mass of an element... The topics that are most important to discuss in this accelerated approach are isotopic masses, atomic masses, the Avogadro constant and the concept of th
Trang 1Solution Manual for General Chemistry: Principles and Modern Applications, Loose Leaf Version 11th edition
by Ralph H Petrucci, F Geoffrey Herring, Jeffry D
Madura and Carey Bissonnette
Link full download: https://getbooksolutions.com/download/solutions-manual- for-general-chemistry-principles-and-modern-applications-loose-leaf-version-11th-edition-by/
CHAPTER OBJECTIVES
β , and γ radiation
the electron), and Rutherford’s gold foil experiment (to establish the existence of the atomic
nucleus)
atom
symbolism Z AE
determine relative atomic masses
naturally occurring isotopes
and predicting the charges of ions of representative elements
the molar mass of an element
Trang 2NOTES 1-1 Some Alternatives for Presenting Chapter 2
For students with good backgrounds in high school chemistry, it may be possible to omit most of Chapter 2, or at least to assign it for self-study In this way the pace through the first two chapters of the text can be quickened The topics that are most important to discuss in this accelerated approach are isotopic masses, atomic masses, the Avogadro constant and the concept of the mole, and calculations involving the mole concept
2-1 Early Chemical Discoveries and the Atomic Theory
Instructors who wish to de-emphasize historical topics may restrict their coverage of Section 2-1 to statements of the laws of conservation of mass and constant composition and to the assumptions of Dalton’s theory If a more complete treatment of the chemical basis of atomic theory is desired at this point, appropriate exercises can be brought forward from Chapter 3 The laws of chemical combination
Experiments with cathode ray tubes produced an understanding of atomic structure The electron was recognized as a fundamental particle and its charge and mass were determined Mass-to-charge ratios
of atomic ions led to the discovery of isotopes
There are two reasons for a brief mention of radioactivity in this section The discovery of radioactivity was a direct consequence of cathode ray and X-ray research, and some knowledge of the nature of alpha particles is required in presenting Rutherford’s model of the nuclear atom Some instructors may prefer to expand the treatment of radioactivity in this chapter, especially if a later separate treatment of nuclear chemistry is not planned Sections 25-1 through 25-4 can serve this purpose
Here is the story of Rutherford’s discovery of the nuclear atom The model of the atom is developed to the point where it consists of protons, neutrons, and electrons, a picture adequate for the study of chemistry The relative charges and masses of the three fundamental particles are presented
The symbolism for designating a nuclide is developed in this section This enables one to specify the number of protons, neutrons, and electrons in a given species The concept of relative abundance is introduced and mass spectrometry is described as the manner of determining masses of individual atoms
The expression is developed for determining average atomic mass from isotopic masses and percent abundances In discussing expression (2.3) it helps to emphasize that the equation can be used to solve for any one quantity—an atomic mass, a fractional abundance, an isotopic mass This emphasis is explored in several exercises
Trang 32-6 Introduction to the Periodic Table
The items presented in this section include that groups in the periodic table contain elements of similar properties, there are four types of elements (metals, nonmetals, noble gases, and metalloids), the chemistries of main-group elements are very similar within a group, and one can predict the charge of the common ion of a main group element This is indeed an introduction
The approach in the text is to define the mole and the Avogadro constant (Avogadro’s number) in terms of exactly 12 g of carbon-12, move on to one mole of a pure isotopic species, and then to consider mixtures of isotopes The mole concept is used in problem solving through the expressions:
Some of the illustrative examples and the Summarizing Example also require ideas from Chapter 1 (e.g., percent mass and density)
Students who have difficulty with the concept of the mole may be helped by Figure 2-17 and the
analogies and photograph on page 54 Additional help can also be found in the Student Study Guide
Finally, it should be helpful to explain to students why the mole concept is applied only to very small entities—protons, electrons, atoms, molecules, ions, …
The relationship between the mole, Avogadro’s number, and the molar mass are related and used to perform some fundamental calculations These calculations are combined with the relationships (density and percent composition) that were introduced in Chapter 1
Focus on Occurrence and Abundances of the Elements
There are several possibilities for dealing with this topic in addition to its placement here It can be considered as early as Chapter 1, in conjunction with the descriptive chemistry chapter (Chapter 20) If Chapter 26 on biochemistry is not covered in the course, students might be interested in learning of the elements occurring in living matter (Table 26-1) at the time that this Focus On feature is taken up
Trang 4ANCILLARY MATERIALS
Transparencies
OVERHEAD TEXT REFERENCE CAPTION
NUMBER Figure Page
Animations, Demonstrations and Activities
Trang 5CHAPTER 2 – TEACHING TIPS
1 Demonstration: Conservation of Mass Glue a vial onto the bottom of a flask Pipet into the vial
the most accurate balance available Tip the flask and allow the solutions to react Weigh again
2 CD: Animation – Reactions with Oxygen
distinction between laws and assumption and how these relate, and the importance of careful quantitative measurement
Dalton’s 3 assumptions has had to be modified in light of modern observations
grasp Emphasize that it is mass ratios, and the ratios of these ratios, that matter Give students
some mass percentages and have them convert these into mass ratios
6 CD: Animation – Multiple Proportions
and understand many chemical properties
8 CD: Simulation – Coulomb’s Law
9 Demonstration: Cathode Ray Tube If available, show a CRT as in Figure 2-6 Try reversing the
leads and see the effect Mention that this demonstrates ―Ben Franklin guessed wrong‖ We now know that the flow of charge in wires and in a CRT is by negative electrons moving from
negative to + We still talk today, however, of current flowing from + to negative Also
demonstrate the effect of a magnetic field Note that the electrons are not attracted or repelled but rather are deflected by a magnetic field
intuitive Emphasize that the effect only works when a charge is moving, and results in a
deflection, not an attraction or repulsion
traveling from left to right, the deflection will be ―down‖ if the North pole is closer to the
observer
12 CD: Animation – Millikan Oil-Drop Experiment
13 CD: Animation – Alpha, Beta and Gamma Rays
neutron into a proton and a high kinetic energy electron
15 CD: Animation – Rutherford Experiment
without observation of any direct form of imagery Atomic level scattering experiments became important again in the latter half of the 20th century
Trang 6
charges of the proton and electron, however, are believed to be exactly equal in magnitude (but opposite in sign)
neutron and proton to be composed of other, more fundamental particles
fluorine-19, sodium-23 and aluminum-27
21 CD: Activity – Isotopes of Hydrogen
hydrogen Isotope 2H is called deuterium (symbol D) and 3H is tritium (T)
23 Demonstration: Heavy Water Exhibit stoppered test tubes of H2O and D2O, cooled to ooC in an
ice bath D2O melts at 3.8 oC and will be a solid Hydrogen is unusual in that the different
isotopes and their compounds have significantly different properties
and potassium
25 CD: Simulation – Mass Spectrometer
ions Other designs use an electrostatic deflection effect
original definition of atomic masses Later, chemists took naturally occurring oxygen as 16 u to
be the definition of their atomic weight scale Concurrently, physicists defined just the
oxygen-16 isotope as oxygen-16 u This resulted in conflicting values In 1971 the adoption of carbon-12 as a universal standard resolved this disparity
atomic mass
the reference clearly applies to an isotope
isotopes each with appreciable (more than 1%) abundances Based on ―isotopic mass mass number,‖ elements like lithium (6.941 u) and boron (10.81 u) must be mixtures The other atomic masses on row 2, and many others, are nearly integral This suggests that these elements have a single predominant isotope Chromium (52.00 u), however, consists of 4 ―appreciable‖ isotopes:
50, 52, 53, and 54 The abundances of these just happen to average close to an integer!
31 CD: Activity – Interactive Periodic Table
32 Demonstration: Sodium in Water This can be performed solely in miniature Use an evaporating
dish with watch-glass cover on an overheard projector Cut a small corner off of a larger piece of sodium and blot to remove any oil Use tweezers to drop the sodium onto the water and cover quickly Note that the sodium melts due to the heat of reaction Complete and balance a net ionic equation for the reaction Repeat the experiment after adding phenolphthalein indicator to a fresh portion of water The point here is that all Group I metals do this, with varying rates of reaction (Avoid using potassium This forms explosive peroxides and is not recommended.)
Trang 733 That elements in one group have similar properties is perhaps the most useful simplifying feature
of atomic properties Significant differences in one group do occur The manner and reason for such differences is much of what we try to discover in studying chemistry
―maximum charge = group number‖ applies to most main-group metals
chemical and physical properties of the elements and their compounds The arrangement of the elements in the modern periodic table is based on atomic numbers
the same formula
Chapter 3 continues with compounds Chapter 4 applies mole concepts to reactions This
provides valuable reinforcement of this important subject It also permits blending a largely mathematical procedure with chemical applications and some more qualitative topics
carbon-12 is defined to be 12 g The mass of one carbon-12 atom is measured using a mass
number In the mid 20th century the value first fluctuated and then stabilized, as mass spectra methods were revised and improved
significant figure than that of the least accurate number in the calculation, to avoid
rounding errors
g/mol) would conveniently be the same number, with different units Some students require some time to understand this
quantities like a dozen and a gross to help explain these topics is helpful
42 Demonstration: Moles of Elements Display samples of 1 mole of several elements such as C,
S, Al, Cu, Zn, Pb, and Hg Note that 1 mole is a convenient ―handful-sized‖ quantity While molar masses vary considerably, say from carbon to lead, the volume stays reasonably
constant We shall discuss important atomic radius differences later, but many atoms have roughly the same size
of Chapter 6