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Chemistry, Whitten - Downloadable Solutions Manual (Revised)

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Description: Solutions Manual for Chemistry, Whitten, 10e is all you need if you are in need for a manual that solves all the exercises and problems within your textbook. Answers have been verified by highly experienced instructors who teaches courses and author textbooks. If you need a stu...

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  • May 15, 2022
  • 353
  • 2021/2022
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The Foundations
1 of Chemistry
1-1 (a) Biochemistry is the study of the chemistry of living things.
(b) Analytical chemistry studies the quantitative and qualitative composition analysis of substances.
(c) Geochemistry is the study of the properties and reactions of the substances that compose earth’s
crust.
(d) Nuclear chemistry is the study of the properties and reactions of atomic nuclei.
(e) Inorganic chemistry is the study of compounds of elements other than carbon; however, simple
carbon compounds are also included, such as CO, CO2, carbonates, and bicarbonates.
1-3 (a) Matter is anything that has mass and occupies space. An example of matter is your textbook.
(b) Kinetic energy is the energy of a moving object or the energy of an object due to its motion. A
bowling ball has kinetic energy as it is rolling down the lane.
(c) Mass is a measure of the amount of matter in an object. The mass of a penny (a copper coin) is
about 1 gram.
(d) An exothermic process is a process that releases heat energy. The combustion of gasoline is an
exothermic process that is used in automobile engines.
(e) An intensive property is a property that is independent of the amount of material present. Density
is an intensive property.

1-5 Law of Conservation of Matter and Energy: The combined amount of matter and energy available in
the universe is fixed. This law recognizes that the energy released in a nuclear reaction comes from
the conversion of matter into energy. The Law of Conservation of Matter and Law of Conservation of
Energy refer to chemical (not nuclear) reactions and physical changes. In chemical reactions and
physical changes, the quantity of mater has no detectable change and energy is neither created nor
destroyed; energy is only converted from one form to another.

1-7 (a) Since energy can be converted from one type to another, a broad definition of exothermic is that
the reaction releases energy. Since light is a form of energy, the production of light from a
fluorescent light is a release of energy.
(b) In a similar manner, the production of light by a glow-in-the-dark object also releases light a form
of energy.

1-9 (a) Exothermic. The gasoline gives off heat and light during combustion or burning.
(b) Exothermic. The ice cream is changing from a liquid to a solid. Heat must be lost for the
particles to slow down and to freeze. This is the opposite of melting.
(c) Endothermic. The chocolate absorbs heat as it melts or changes from a solid to a liquid.
(d) Exothermic. As the temperature of the water drops, the heat energy is leaving the water and
moving into the surroundings.
(e) Exothermic. Water vapor gives off heat as it condenses. The particles must cool to change from a
gas to a liquid

1-1

, (f) Exothermic. The match gives off heat as it burns. This heat can be used to light the wick of a
candle.

1-11 (a) Law of Conservation of Matter: There is no detectable change in the quantity of matter during an
ordinary chemical reaction or during a physical change. Examples—(i) when magnesium metal
burns in oxygen, the mass of the product (magnesium oxide) is equal to the sum of the masses of
the magnesium and oxygen that combine; (ii) when ice melts, its mass does not change.
(b) Law of Conservation of Energy: Energy cannot be created or destroyed in a chemical reaction or
in a physical change; it can only be converted from one form to another. Example—in a
hydroelectric plant, the mechanical (kinetic) energy of the falling water is converted into
electrical energy; some of the energy is converted into heat.
(c) Law of Conservation of Matter and Energy: The combined amount of matter and energy
available in the universe is fixed. Example—the energy released in a nuclear reaction comes from
the conversion of matter into energy.
1-13 An incandescent light bulb converts electrical energy into light energy. A considerable portion of the
electrical energy used is converted into heat energy. The Law of Conservation of Energy is observed
since the sum of the heat energy and light energy produced is equal to the electrical energy consumed.

1-15 A homogeneous mixture has uniform composition and properties throughout. Among the examples
given in this exercise, carbon dioxide (f) is the only pure substance. All samples of carbon dioxide
would always contain the same ratio of carbon and oxygen. Examples (a), and (e) are homogeneous
mixtures; examples (b), (c), (d), and (g) are heterogeneous mixtures. The heterogeneous mixtures have
large particles that are suspended (mud, noodles, onion), floating (ice), or that are at the bottom of the
container (chocolate chips, chunks of chicken); therefore, they are not homogeneous mixtures.

1-17 (a) A gaseous element is shown in box (i). The substance contains only one element because only
blue spheres are shown, even though the element is diatomic. The substance is a gas because the
particles have the maximum separation.
(b) A gaseous compound is shown in box (v). The substance is a compound because each particle
contains two elements (two blue atoms and one red atom bonded together). The substance is a gas
because the particles have the maximum separation.
(c) A homogeneous gaseous mixture is shown in box (iv). A mixture is shown because there are two
different types of particles (diatomic blue and a compound made of two blue and one red atom).
The substance is a gas because the particles have the maximum separation.
(d) A liquid solution is shown in box (vi). A solution is a homogeneous liquid mixture. A mixture is
shown because there are two different types of particles (a compound made of one red and two
white atoms, with a second compound made of one red, one blue, and four white atoms). The
substance is a liquid because the particles are much closer than in a gas, but the particles are not
as close as a solid or in a regular repeating pattern as a solid.
(e) A solid is shown in box (ii). A solid is shown because the particles are shown very close together
and are in a regular repeating pattern. A crystalline solid is depicted.
(f) A pure liquid is shown in box (iii). The substance is a liquid because the particles are all the same
(maroon), are much closer than in a gas, but the particles are not as close as a solid or in a regular
repeating pattern as a solid. The liquid happens to be diatomic. The liquid is pure because there is
only one type of particle.
1-2

,1-19 (a) Salt and water will form a homogeneous mixture, so to separate the salt from the water, you
would need to evaporate or boil away the water to leave the salt behind.
(b) Iron filings and lead can be separated be using a magnet. Iron is attracted to a magnet, while lead
is not.
(c) Elemental sulfur can be separated from sugar by using solubility properties. Sugar is soluble in
water, while sulfur is not. Adding water to the mixture and pouring off the solution, sulfur will be
left.

1-21 (a) Chemical properties are exhibited as matter undergoes changes in composition, whereas physical
properties can be observed in the absence of any such change in composition.
Examples of chemical properties—(i) magnesium can combine with oxygen; (ii) gasoline is
flammable.
Examples of physical properties—(i) water is a colorless liquid at room temperature; (ii) oxygen
is a gas at room temperature and ordinary pressures; (iii) the melting point of bromine is –7.1˚C.
(b) Intensive properties are those properties that are independent of the amount of material examined,
while extensive properties depend on the amount of material examined.
Examples of intensive properties—(i) magnesium can combine with oxygen; (ii) the melting
point of bromine is –7.1˚C.
Examples of extensive properties—(i) the mass of a sample; (ii) the volume of a sample at
specified conditions.
(c) Chemical changes occur when one or more substances react resulting in the formation of one or
more new substances. Physical changes most often involve changes in physical state brought
about by the absorption or release of energy
Example of chemical change—(i) alcohol reacting (burning) in oxygen to form carbon dioxide
and water.
Examples of physical change—(i) ice melting to water with the absorption of heat; (ii) steam
condensing to liquid water with the release of heat.
(d) Mass is a measure of the amount of matter in an object, while weight is a measure of gravitational
attraction of the earth for an object.
An object having a mass of 454 g has a weight of one pound on Earth and the same object having
a mass of 454 g would have zero weight in a zero gravitational field.
1-23 (a) Chemical process. Iron is combining with oxygen in the presence of water to form a new
substance (rust).
(b) Physical process. Water as a solid (ice) is changing to liquid water. Melting does not change the
composition.
(c) Chemical process. The wood is changed by the combustion or burning into ash, which is a new
substance with none of the properties of the wood.
(d) Chemical process. The components of the potato are broken down into substances that can be
absorbed by the digestive tract.
(e) Physical process. Dissolving sugar in water does not change the composition. If the water in the
solution were allowed to evaporate, the sugar would be left behind.
1-25 (a) Kinetic energy (b) Potential energy
(c) Potential energy (d) Kinetic energy
(e) Kinetic energy (f) Potential energy
1-3

, 1-27 Both physical and chemical changes have taken place. The outer edge of the sugar cube melted (a
physical change), then the sugar began to burn or oxidize (a chemical change). The heated portion has
a different color and odor. The brown portion contains carbon left as the sugar decomposes.
1-29 (a) 6.50 x 102 (b) 6.30 x 10–2 (c) 8.60 x 103
(d) 8.600 x 103 (e) 1.6 x 104 (f) 1.0010 x 10–1
1-31 (a) Exact (the result of counting)
(b) Exact (the result of counting)
(c) Exact (counted to the nearest penny)
(d) Not exact (obtained by measurement)
(e) Not exact (obtained by measurement)
(f) Exact (the result of counting)

1-33 Circumference = πd = (3.141593)(7.41 cm) = 23.3 cm
1-35 (a) 106 (b) 10-3 (c) 10-2 (d) 10-1 (e) 103 (f) 10-9

1-37 5.31 cm = 5.31 x 10-2 m, 53.1 mm, 5.31 x 10-5 km, and 5.31 x 104 micrometers
4 qt 1L $0.861
1-39 ? $ = 14 gal x 1 gal x 1.056 qt x = $45.66
1L

2.54 cm 2.54 cm
1-41 ? cm = 8.25 in x 1 in = 20.955 cm ? cm = 6.25 in x 1 in = 15.875 cm

21.0 cm x 15.9 cm = screen size

1-43 ? g = 10.25g + 5.5654g x 105.4g = 121.2 g

8.92 g 4
1-45 ?g = x 24.4 cm x 11.4 cm x 7.9 cm = 19601g = 2.0 x 10 g
cm3

1000 cm3 1.0056 g 3
1-47 ? g = 3.00 L x x = 3.02 x 10 g (if three L has 3 sig. figs.)
1L 1 cm3

1-49 (a) mass of water = 92.44 g – 78.91 g = 13.53 g water

1 cm3 3
volume of water = 13.53 g x 1.0000 g = 13.53 cm

(b) mass of unknown liquid = 88.42 g – 78.91 g = 9.51 g
M 9.51g 3
density of unknown liquid = V = 3
= 0.703 g/cm
13.53cm

1.049 g soln. 40.0 g acetic acid
1-51 ? g = 250.0 mL x x = 104.9 ⇒ 105 g acetic acid
mL 100 g soln.

1-53 (a) ? K = 245° C + 273.15° = 518 K
€ €
1-4

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