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Deck 21: The Main Group Elements: Life and the Periodic Table

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Question
Which metal, by either mass or number of atoms, is most abundant in the human body?

A)K
B)Na
C)Mg
D)Al
E)Ca
Use Space or
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to flip the card.
Question
Which element, by the number of atoms, is least abundant in the human body?

A)sodium
B)calcium
C)potassium
D)magnesium
E)nitrogen
Question
What is the dominant role played by calcium in the body?

A)maintains osmotic pressure
B)transmits nerve impulses
C)forms structural materials
D)a key component in enzymes
E)important in the function of the thyroid gland
Question
The concentration of an ultratrace essential element in the body is less than ________ per gram of body mass.

A)1 g
B)10 mg
C)1 mg
D)10 μ\mu g
E)1 μ\mu g
Question
Cell membranes are formed by ________

A)a lipid layer.
B)a lipid bilayer.
C)a phospholipid bilayer.
D)cellulose.
E)starch.
Question
The ion found in chlorophyll is ________

A)Zn2+
B)Mg2+
C)Ca2+
D)Fe2+
E)Cu2+
Question
Magnesium is found in which one of the following important biological molecules?

A)chlorophyll
B)hemoglobin
C)cytochrome C
D)ferredoxin
E)adenosine triphosphate
Question
Which of the following elements, by mass, is the most abundant in the universe?

A)iron
B)oxygen
C)helium
D)nitrogen
E)carbon
Question
The concentration of a major essential element in the body is greater than ________ per gram of body mass.

A)1 g
B)10 mg
C)1 mg
D)10 μ\mu g
E)1 μ\mu g
Question
Which element, by mass, is most abundant in the human body?

A)carbon
B)oxygen
C)hydrogen
D)nitrogen
E)calcium
Question
Which element, by the number of atoms, is most abundant in the human body?

A)carbon
B)oxygen
C)hydrogen
D)nitrogen
E)calcium
Question
Which anion is most abundant in the human body?

A)I-
B)Br -
C)CO32-
D)Cl-
E)NO3-
Question
The Mg2+ ion plays a significant role in the human body by

A)maintaining osmotic pressure.
B)forming structure support for the body.
C)transmitting nerve impulses.
D)balancing ion flow in the bloodstream.
E)participating in ATP hydrolysis and ADP phosphorylation.
Question
The concentration of a trace essential element in the body is typically in the range of ________ per gram of body mass.

A)1 μ\mu g to 1 mg
B)1 μ\mu g to 10 mg
C)10 μ\mu g to 10 mg
D)10 μ\mu g to 100 mg
E)100 μ\mu g to 100 mg
Question
An essential biological element ________

A)is any element detected in the organism.
B)stimulates essential biological functions.
C)is found in all organisms.
D)has beneficial physiological effects, and its absence impairs function of the organism.
E)is expensive.
Question
Which of the following is not a characteristic of a nonessential biological element?

A)detected in the body but has no clear biological function
B)has a stimulatory effect on biological functions
C)is incorporated into biological compounds because it is similar to essential elements
D)has clear biological functions
E)organisms require them for survival
Question
Which ion is important in transmitting nerve impulses?

A)Na+
B)Mg2+
C)Fe2+
D)Zn2+
E)Li+
Question
Cell membranes assemble ________

A)to orient nonpolar fatty acid chains toward the interior of the cell.
B)as a bilayer with the nonpolar portion of the bilayer on the membrane exterior.
C)to orient polar head groups toward the interior and exterior of the cell.
D)based on electrostatic attractions between phospholipid molecules.
E)with polar head groups located within the interior of the membrane.
Question
Which metal, by the number of atoms, is most abundant in the human body?

A)sodium
B)calcium
C)potassium
D)magnesium
E)iron
Question
Nickel-cadmium batteries thrown into landfills can introduce cadmium ions into the groundwater. Cadmium ions can replace ________ in bones, which can weaken them.

A)Na+
B)K+
C)Zn2+
D)Ca2+
E)Mg2+
Question
Enzymes in plants convert nitrate into ammonia. The unbalanced half-reaction equation is given below. What is the stoichiometric coefficient of water in the balanced reaction equation? <strong>Enzymes in plants convert nitrate into ammonia. The unbalanced half-reaction equation is given below. What is the stoichiometric coefficient of water in the balanced reaction equation? </strong> A)0 B)1 C)2 D)3 E)4 <div style=padding-top: 35px>

A)0
B)1
C)2
D)3
E)4
Question
The concentration of chloride in the human body is approximately 19 mg/g of body mass. What is this concentration in ppb (parts per billion)?

A)1.9 ×\times 10-2 ppb
B)1.9 ×\times 107 ppb
C)1.9 ×\times 104 ppb
D)1,900 ppb
E)190 ppb
Question
Ion channels in cell membranes control selective transport of ions based on what property(ies)?

A)size
B)electronegativity
C)charge
D)A and C
E)B and C
Question
The concentration of sodium in the human body is approximately 1.5 mg/g of body mass. What is this concentration in ppm (parts per million)?

A)1.5 ×\times 106 ppm
B)1.5 ×\times 10-3 ppm
C)0.015 ppm
D)1,500 ppm
E)150 ppm
Question
The nucleus of a cell has a pH of approximately 7.3. What is the molar concentration of hydroxide in the nucleus of a cell?

A)5.00 ×\times 10-8 M
B)3.27 ×\times 10-5 M
C)2.00 ×\times 10-7 M
D)3.06 ×\times 10-10 M
E)7.31 ×\times 10-4 M
Question
Plants convert nitrate into ammonia by using enzymes called ________

A)peptidases.
B)amylases.
C)anhydrases.
D)oxidases.
E)reductases.
Question
Tooth enamel is composed of the mineral hydroxyapatite. It is essentially insoluble in water with Ksp = 2.3 ×\times 10-59, but it reacts with weak acids in the mouth as described by one of the reaction equations below. You can determine the equilibrium constant, K, for this reaction from Ksp and Kw (the equilibrium constant for water autoionization, Kw = 1.0 ×\times 10-14). What is the value of K?
<strong>Tooth enamel is composed of the mineral hydroxyapatite. It is essentially insoluble in water with K<sub>sp</sub> = 2.3 \times 10<sup>-59</sup>, but it reacts with weak acids in the mouth as described by one of the reaction equations below. You can determine the equilibrium constant, K, for this reaction from K<sub>sp</sub> and K<sub>w</sub> (the equilibrium constant for water autoionization, K<sub>w</sub> = 1.0 \times 10<sup>-14</sup>). What is the value of K? </strong> A)2.3 \times 10 <sup>-73</sup> B)4.3 \times 10 <sup>45</sup> C)2.3 \times 10 <sup>-45</sup> D)1.1 \times 10 <sup>-14</sup> E)9.9 \times 10 <sup>-15</sup> <div style=padding-top: 35px>
<strong>Tooth enamel is composed of the mineral hydroxyapatite. It is essentially insoluble in water with K<sub>sp</sub> = 2.3 \times 10<sup>-59</sup>, but it reacts with weak acids in the mouth as described by one of the reaction equations below. You can determine the equilibrium constant, K, for this reaction from K<sub>sp</sub> and K<sub>w</sub> (the equilibrium constant for water autoionization, K<sub>w</sub> = 1.0 \times 10<sup>-14</sup>). What is the value of K? </strong> A)2.3 \times 10 <sup>-73</sup> B)4.3 \times 10 <sup>45</sup> C)2.3 \times 10 <sup>-45</sup> D)1.1 \times 10 <sup>-14</sup> E)9.9 \times 10 <sup>-15</sup> <div style=padding-top: 35px>
<strong>Tooth enamel is composed of the mineral hydroxyapatite. It is essentially insoluble in water with K<sub>sp</sub> = 2.3 \times 10<sup>-59</sup>, but it reacts with weak acids in the mouth as described by one of the reaction equations below. You can determine the equilibrium constant, K, for this reaction from K<sub>sp</sub> and K<sub>w</sub> (the equilibrium constant for water autoionization, K<sub>w</sub> = 1.0 \times 10<sup>-14</sup>). What is the value of K? </strong> A)2.3 \times 10 <sup>-73</sup> B)4.3 \times 10 <sup>45</sup> C)2.3 \times 10 <sup>-45</sup> D)1.1 \times 10 <sup>-14</sup> E)9.9 \times 10 <sup>-15</sup> <div style=padding-top: 35px>
<strong>Tooth enamel is composed of the mineral hydroxyapatite. It is essentially insoluble in water with K<sub>sp</sub> = 2.3 \times 10<sup>-59</sup>, but it reacts with weak acids in the mouth as described by one of the reaction equations below. You can determine the equilibrium constant, K, for this reaction from K<sub>sp</sub> and K<sub>w</sub> (the equilibrium constant for water autoionization, K<sub>w</sub> = 1.0 \times 10<sup>-14</sup>). What is the value of K? </strong> A)2.3 \times 10 <sup>-73</sup> B)4.3 \times 10 <sup>45</sup> C)2.3 \times 10 <sup>-45</sup> D)1.1 \times 10 <sup>-14</sup> E)9.9 \times 10 <sup>-15</sup> <div style=padding-top: 35px>
<strong>Tooth enamel is composed of the mineral hydroxyapatite. It is essentially insoluble in water with K<sub>sp</sub> = 2.3 \times 10<sup>-59</sup>, but it reacts with weak acids in the mouth as described by one of the reaction equations below. You can determine the equilibrium constant, K, for this reaction from K<sub>sp</sub> and K<sub>w</sub> (the equilibrium constant for water autoionization, K<sub>w</sub> = 1.0 \times 10<sup>-14</sup>). What is the value of K? </strong> A)2.3 \times 10 <sup>-73</sup> B)4.3 \times 10 <sup>45</sup> C)2.3 \times 10 <sup>-45</sup> D)1.1 \times 10 <sup>-14</sup> E)9.9 \times 10 <sup>-15</sup> <div style=padding-top: 35px>
<strong>Tooth enamel is composed of the mineral hydroxyapatite. It is essentially insoluble in water with K<sub>sp</sub> = 2.3 \times 10<sup>-59</sup>, but it reacts with weak acids in the mouth as described by one of the reaction equations below. You can determine the equilibrium constant, K, for this reaction from K<sub>sp</sub> and K<sub>w</sub> (the equilibrium constant for water autoionization, K<sub>w</sub> = 1.0 \times 10<sup>-14</sup>). What is the value of K? </strong> A)2.3 \times 10 <sup>-73</sup> B)4.3 \times 10 <sup>45</sup> C)2.3 \times 10 <sup>-45</sup> D)1.1 \times 10 <sup>-14</sup> E)9.9 \times 10 <sup>-15</sup> <div style=padding-top: 35px>

A)2.3 ×\times 10 -73
B)4.3 ×\times 10 45
C)2.3 ×\times 10 -45
D)1.1 ×\times 10 -14
E)9.9 ×\times 10 -15
Question
The average concentration of calcium in the human body is 15 mg/g of body mass. What is the mass of calcium in the body of a person weighing 150 lb? (1 lb = 454 g)

A)1.0 lb
B)0.023 lb
C)23 lb
D)100 lb
E)2.3 lb
Question
Different concentrations of ions on either side of a cell membrane constitute a concentration cell, which is described by the Nernst equation given below. What is the electrochemical potential across a membrane when the sodium ion concentration is 0.10 M on one side of the membrane and 0.010 M on the other side, and the temperature is 37 \circ C (body temperature)? (Given: <strong>Different concentrations of ions on either side of a cell membrane constitute a concentration cell, which is described by the Nernst equation given below. What is the electrochemical potential across a membrane when the sodium ion concentration is 0.10 M on one side of the membrane and 0.010 M on the other side, and the temperature is 37<sup> \circ </sup>C (body temperature)? (Given: , = -2.71 V; F =96,485 C; 1 J = 1 C V; R = 8.315 J / (mol K)) E = E<sup> \circ </sup> - InQ</strong> A)61.5 mV B)26.7 mV C)2.65 V D)2.68 V E)2.98 V <div style=padding-top: 35px> , <strong>Different concentrations of ions on either side of a cell membrane constitute a concentration cell, which is described by the Nernst equation given below. What is the electrochemical potential across a membrane when the sodium ion concentration is 0.10 M on one side of the membrane and 0.010 M on the other side, and the temperature is 37<sup> \circ </sup>C (body temperature)? (Given: , = -2.71 V; F =96,485 C; 1 J = 1 C V; R = 8.315 J / (mol K)) E = E<sup> \circ </sup> - InQ</strong> A)61.5 mV B)26.7 mV C)2.65 V D)2.68 V E)2.98 V <div style=padding-top: 35px> = -2.71 V; F =96,485 C; 1 J = 1 C V; R = 8.315 J / (mol K))
E = E \circ - <strong>Different concentrations of ions on either side of a cell membrane constitute a concentration cell, which is described by the Nernst equation given below. What is the electrochemical potential across a membrane when the sodium ion concentration is 0.10 M on one side of the membrane and 0.010 M on the other side, and the temperature is 37<sup> \circ </sup>C (body temperature)? (Given: , = -2.71 V; F =96,485 C; 1 J = 1 C V; R = 8.315 J / (mol K)) E = E<sup> \circ </sup> - InQ</strong> A)61.5 mV B)26.7 mV C)2.65 V D)2.68 V E)2.98 V <div style=padding-top: 35px> InQ

A)61.5 mV
B)26.7 mV
C)2.65 V
D)2.68 V
E)2.98 V
Question
How much energy must be expended by a cell to transport 1 mole of sodium ions across a membrane with an electrochemical potential of 62 mV in order to maintain this potential?

A)50 kJ
B)260 kJ
C)6.0 kJ
D)250 kJ
E)6,000 kJ
Question
Calcium carbonate is used to form exoskeletons. It has a solubility-product constant of 5.0 ×\times 10 -9. What is the molar concentration of calcium ions in a saturated solution of calcium carbonate?

A)2.5 ×\times 10-9 M
B)7.1 ×\times 10-5 M
C)3.5 ×\times 10 -5 M
D)5.0 ×\times 10-9 M
E)4.7 ×\times 10 -7 M
Question
Urea is a waste product produced when the body metabolizes protein. What is the oxidation number of nitrogen in urea, (NH2)2CO?

A)(+3)
B)(-3)
C)1
D)(-1)
E)(-4)
Question
Which statement describing the mechanisms by which sodium ions pass through cell membranes is not correct?

A)Groups of proteins form ion channels for sodium ions.
B)Sodium ions can be transported by Na+-K+ pumps.
C)Membrane proteins pump sodium ions through the membrane.
D)Sodium ions form complexes with nonpolar ligands that can diffuse through the membrane.
E)Sodium ions can diffuse directly through the membrane.
Question
Plants convert nitrogen into ammonia. This biological nitrogen fixation is effected by enzymes called nitrogenases. The enzymes assist in the transfer of electrons. The unbalanced reaction equation is <strong>Plants convert nitrogen into ammonia. This biological nitrogen fixation is effected by enzymes called nitrogenases. The enzymes assist in the transfer of electrons. The unbalanced reaction equation is What is the stoichiometric coefficient for ammonia in the balanced reaction equation?</strong> A)1 B)2 C)4 D)6 E)8 <div style=padding-top: 35px> What is the stoichiometric coefficient for ammonia in the balanced reaction equation?

A)1
B)2
C)4
D)6
E)8
Question
Different concentrations of ions on either side of a cell membrane constitute a concentration cell, which is described by the Nernst equation given below. A cell must expend energy to maintain this concentration gradient by moving ions from one side of the membrane to the other. How much energy must be expended to transport 1 mole of sodium ions across a membrane when the sodium ion concentration is 0.10 M on one side of the membrane and 0.010 M on the other side, and the temperature is 37 \circ C (body temperature)? (Given: <strong>Different concentrations of ions on either side of a cell membrane constitute a concentration cell, which is described by the Nernst equation given below. A cell must expend energy to maintain this concentration gradient by moving ions from one side of the membrane to the other. How much energy must be expended to transport 1 mole of sodium ions across a membrane when the sodium ion concentration is 0.10 M on one side of the membrane and 0.010 M on the other side, and the temperature is 37<sup> \circ </sup>C (body temperature)? (Given: , <sup> </sup>= -2.71 V; F = 96,485 C; 1 J = 1 C V; R = 8.315 J / (mol K)) E = E<sup> \circ </sup> - InQ</strong> A)50 kJ B)260 kJ C)6.0 kJ D)250 kJ E)6,000 kJ <div style=padding-top: 35px> , <strong>Different concentrations of ions on either side of a cell membrane constitute a concentration cell, which is described by the Nernst equation given below. A cell must expend energy to maintain this concentration gradient by moving ions from one side of the membrane to the other. How much energy must be expended to transport 1 mole of sodium ions across a membrane when the sodium ion concentration is 0.10 M on one side of the membrane and 0.010 M on the other side, and the temperature is 37<sup> \circ </sup>C (body temperature)? (Given: , <sup> </sup>= -2.71 V; F = 96,485 C; 1 J = 1 C V; R = 8.315 J / (mol K)) E = E<sup> \circ </sup> - InQ</strong> A)50 kJ B)260 kJ C)6.0 kJ D)250 kJ E)6,000 kJ <div style=padding-top: 35px> = -2.71 V; F = 96,485 C; 1 J = 1 C V; R = 8.315 J / (mol K))
E = E \circ - <strong>Different concentrations of ions on either side of a cell membrane constitute a concentration cell, which is described by the Nernst equation given below. A cell must expend energy to maintain this concentration gradient by moving ions from one side of the membrane to the other. How much energy must be expended to transport 1 mole of sodium ions across a membrane when the sodium ion concentration is 0.10 M on one side of the membrane and 0.010 M on the other side, and the temperature is 37<sup> \circ </sup>C (body temperature)? (Given: , <sup> </sup>= -2.71 V; F = 96,485 C; 1 J = 1 C V; R = 8.315 J / (mol K)) E = E<sup> \circ </sup> - InQ</strong> A)50 kJ B)260 kJ C)6.0 kJ D)250 kJ E)6,000 kJ <div style=padding-top: 35px> InQ

A)50 kJ
B)260 kJ
C)6.0 kJ
D)250 kJ
E)6,000 kJ
Question
Tooth enamel is composed of the calcium compound called ________

A)hydrophilite.
B)apatite.
C)hydroxyapatite.
D)calcite.
E)andradite.
Question
Stomach acid is 0.16 M HCl. What is the pH of stomach acid?

A)0.80
B)8.0
C)(-0.80)
D)0.69
E)(-8.0)
Question
Tooth enamel is composed of the mineral hydroxyapatite. It is essentially insoluble in water with Ksp = 2.3 ×\times 10-59, but it reacts with weak acids in the mouth as described by one of the reaction equations below. You can determine the equilibrium constant, K, for this reaction from Ksp and Kw (the equilibrium constant for water autoionization). How do you do this?
<strong>Tooth enamel is composed of the mineral hydroxyapatite. It is essentially insoluble in water with K<sub>sp</sub> = 2.3 \times 10<sup>-59</sup>, but it reacts with weak acids in the mouth as described by one of the reaction equations below. You can determine the equilibrium constant, K, for this reaction from K<sub>sp</sub> and K<sub>w</sub> (the equilibrium constant for water autoionization). How do you do this? </strong> A)K = K<sub>w</sub>K<sub>sp</sub> B)K = K<sub>w </sub>/K<sub>sp</sub>. C)K = K<sub>sp </sub>/K<sub>w</sub> D)K = K<sub>w</sub> = K<sub>sp</sub> E)K = K<sub>w</sub> = K<sub>sp</sub> . <div style=padding-top: 35px>
<strong>Tooth enamel is composed of the mineral hydroxyapatite. It is essentially insoluble in water with K<sub>sp</sub> = 2.3 \times 10<sup>-59</sup>, but it reacts with weak acids in the mouth as described by one of the reaction equations below. You can determine the equilibrium constant, K, for this reaction from K<sub>sp</sub> and K<sub>w</sub> (the equilibrium constant for water autoionization). How do you do this? </strong> A)K = K<sub>w</sub>K<sub>sp</sub> B)K = K<sub>w </sub>/K<sub>sp</sub>. C)K = K<sub>sp </sub>/K<sub>w</sub> D)K = K<sub>w</sub> = K<sub>sp</sub> E)K = K<sub>w</sub> = K<sub>sp</sub> . <div style=padding-top: 35px>
<strong>Tooth enamel is composed of the mineral hydroxyapatite. It is essentially insoluble in water with K<sub>sp</sub> = 2.3 \times 10<sup>-59</sup>, but it reacts with weak acids in the mouth as described by one of the reaction equations below. You can determine the equilibrium constant, K, for this reaction from K<sub>sp</sub> and K<sub>w</sub> (the equilibrium constant for water autoionization). How do you do this? </strong> A)K = K<sub>w</sub>K<sub>sp</sub> B)K = K<sub>w </sub>/K<sub>sp</sub>. C)K = K<sub>sp </sub>/K<sub>w</sub> D)K = K<sub>w</sub> = K<sub>sp</sub> E)K = K<sub>w</sub> = K<sub>sp</sub> . <div style=padding-top: 35px>
<strong>Tooth enamel is composed of the mineral hydroxyapatite. It is essentially insoluble in water with K<sub>sp</sub> = 2.3 \times 10<sup>-59</sup>, but it reacts with weak acids in the mouth as described by one of the reaction equations below. You can determine the equilibrium constant, K, for this reaction from K<sub>sp</sub> and K<sub>w</sub> (the equilibrium constant for water autoionization). How do you do this? </strong> A)K = K<sub>w</sub>K<sub>sp</sub> B)K = K<sub>w </sub>/K<sub>sp</sub>. C)K = K<sub>sp </sub>/K<sub>w</sub> D)K = K<sub>w</sub> = K<sub>sp</sub> E)K = K<sub>w</sub> = K<sub>sp</sub> . <div style=padding-top: 35px>
<strong>Tooth enamel is composed of the mineral hydroxyapatite. It is essentially insoluble in water with K<sub>sp</sub> = 2.3 \times 10<sup>-59</sup>, but it reacts with weak acids in the mouth as described by one of the reaction equations below. You can determine the equilibrium constant, K, for this reaction from K<sub>sp</sub> and K<sub>w</sub> (the equilibrium constant for water autoionization). How do you do this? </strong> A)K = K<sub>w</sub>K<sub>sp</sub> B)K = K<sub>w </sub>/K<sub>sp</sub>. C)K = K<sub>sp </sub>/K<sub>w</sub> D)K = K<sub>w</sub> = K<sub>sp</sub> E)K = K<sub>w</sub> = K<sub>sp</sub> . <div style=padding-top: 35px>
<strong>Tooth enamel is composed of the mineral hydroxyapatite. It is essentially insoluble in water with K<sub>sp</sub> = 2.3 \times 10<sup>-59</sup>, but it reacts with weak acids in the mouth as described by one of the reaction equations below. You can determine the equilibrium constant, K, for this reaction from K<sub>sp</sub> and K<sub>w</sub> (the equilibrium constant for water autoionization). How do you do this? </strong> A)K = K<sub>w</sub>K<sub>sp</sub> B)K = K<sub>w </sub>/K<sub>sp</sub>. C)K = K<sub>sp </sub>/K<sub>w</sub> D)K = K<sub>w</sub> = K<sub>sp</sub> E)K = K<sub>w</sub> = K<sub>sp</sub> . <div style=padding-top: 35px>

A)K = KwKsp
B)K = Kw /Ksp.
C)K = Ksp /Kw
D)K = Kw = Ksp
E)K = Kw = Ksp .
Question
Enzymes in plants convert nitrate into ammonia. The unbalanced half-reaction equation is given below. What is the change in oxidation number of nitrogen in this reaction? <strong>Enzymes in plants convert nitrate into ammonia. The unbalanced half-reaction equation is given below. What is the change in oxidation number of nitrogen in this reaction? </strong> A)0 B)(+5) C)(+3) D)(-2) E)(-3) <div style=padding-top: 35px>

A)0
B)(+5)
C)(+3)
D)(-2)
E)(-3)
Question
Plants convert nitrogen into ammonia. This biological nitrogen fixation is effected by enzymes called nitrogenases. The enzymes assist in the transfer of electrons. The unbalanced reaction equation is <strong>Plants convert nitrogen into ammonia. This biological nitrogen fixation is effected by enzymes called nitrogenases. The enzymes assist in the transfer of electrons. The unbalanced reaction equation is What is the change in the oxidation number of nitrogen in this reaction?</strong> A)(+1) B)(-3) C)(+3) D)(+2) E)(-1) <div style=padding-top: 35px>
What is the change in the oxidation number of nitrogen in this reaction?

A)(+1)
B)(-3)
C)(+3)
D)(+2)
E)(-1)
Question
Plants convert nitrogen into ammonia. This biological nitrogen fixation is affected by enzymes called nitrogenases. The enzymes assist in the transfer of electrons. The unbalanced reaction equation is <strong>Plants convert nitrogen into ammonia. This biological nitrogen fixation is affected by enzymes called nitrogenases. The enzymes assist in the transfer of electrons. The unbalanced reaction equation is What is the stoichiometric coefficient for H<sup>+</sup> in the balanced reaction equation?</strong> A)1 B)2 C)4 D)6 E)8 <div style=padding-top: 35px> What is the stoichiometric coefficient for H+ in the balanced reaction equation?

A)1
B)2
C)4
D)6
E)8
Question
Selenium can substitute for sulfur in the amino acid cysteine to make the amino acid selenocysteine because ________

A)sulfur and selenium both begin with s.
B)their atomic symbols are similar.
C)both have about the same atomic radius.
D)both have the same valence electron configuration.
E)both have about the same ionization potential.
Question
Plants convert nitrogen into ammonia. This biological nitrogen fixation is effected by enzymes called nitrogenases. The enzymes assist in the transfer of electrons. The unbalanced reaction equation is <strong>Plants convert nitrogen into ammonia. This biological nitrogen fixation is effected by enzymes called nitrogenases. The enzymes assist in the transfer of electrons. The unbalanced reaction equation is What is the stoichiometric coefficient for the electrons in the balanced reaction equation?</strong> A)1 B)2 C)4 D)6 E)8 <div style=padding-top: 35px> What is the stoichiometric coefficient for the electrons in the balanced reaction equation?

A)1
B)2
C)4
D)6
E)8
Question
The active site of an enzyme typically contains ________

A)an alkali metal.
B)an alkaline earth metal.
C)a transition metal.
D)an actinide metal.
E)a lanthanide metal.
Question
Copper is a trace metal in the human body with a typical concentration of 110 mg in 75 kg of body mass. What is this concentration in units of parts per million (ppm)?

A)1.5 ×\times 10-6 ppm
B)1.5 ppm
C)1.1 ×\times 10-5 ppm
D)1.1 ×\times 10-7 ppm
E)150 ppm
Question
Vanadium is an ultratrace metal in the human body with a typical concentration of approximately 17 ng/g body mass. How many milligrams of V are there in a person weighing 185 lb? 1 lb = 454 g

A)1.43 ×\times 10-2 mg
B)1.43 mg
C)143 mg
D)1430 mg
E)14,300 mg
Question
Hydroxyapatite, which is a component of tooth enamel, is very insoluble in water. For the following reaction, Ksp = 2.3 ×\times 10-59. <strong>Hydroxyapatite, which is a component of tooth enamel, is very insoluble in water. For the following reaction, K<sub>sp</sub> = 2.3 \times 10<sup>-59</sup>. What is the molar concentration of Ca<sub>5</sub>(PO<sub>4</sub>)<sub>3</sub><sup>+</sup> when the pH of the mouth is 4.0?</strong> A)2.3 \times 10<sup>-49</sup> M B)2.3 \times 10<sup>-59</sup> M C)2.3 \times 10<sup>--55</sup> M D)2.3 \times 10<sup>-63</sup> M E)0, teeth don't dissolve! <div style=padding-top: 35px> <strong>Hydroxyapatite, which is a component of tooth enamel, is very insoluble in water. For the following reaction, K<sub>sp</sub> = 2.3 \times 10<sup>-59</sup>. What is the molar concentration of Ca<sub>5</sub>(PO<sub>4</sub>)<sub>3</sub><sup>+</sup> when the pH of the mouth is 4.0?</strong> A)2.3 \times 10<sup>-49</sup> M B)2.3 \times 10<sup>-59</sup> M C)2.3 \times 10<sup>--55</sup> M D)2.3 \times 10<sup>-63</sup> M E)0, teeth don't dissolve! <div style=padding-top: 35px> <strong>Hydroxyapatite, which is a component of tooth enamel, is very insoluble in water. For the following reaction, K<sub>sp</sub> = 2.3 \times 10<sup>-59</sup>. What is the molar concentration of Ca<sub>5</sub>(PO<sub>4</sub>)<sub>3</sub><sup>+</sup> when the pH of the mouth is 4.0?</strong> A)2.3 \times 10<sup>-49</sup> M B)2.3 \times 10<sup>-59</sup> M C)2.3 \times 10<sup>--55</sup> M D)2.3 \times 10<sup>-63</sup> M E)0, teeth don't dissolve! <div style=padding-top: 35px> What is the molar concentration of Ca5(PO4)3+ when the pH of the mouth is 4.0?

A)2.3 ×\times 10-49 M
B)2.3 ×\times 10-59 M
C)2.3 ×\times 10--55 M
D)2.3 ×\times 10-63 M
E)0, teeth don't dissolve!
Question
Selenium is an ultratrace element that is essential for life. It is used in the synthesis of ________, which is ________.

A)selenocysteine; a lipid
B)cysteine; an amino acid
C)selenocysteine; an amino acid
D)selenocysteine; a fatty acid
E)selenothymine; a nucleic acid base
Question
Chromium is an ultratrace metal in the human body. The typical concentration is 5.0 mg in 70.0 kg of body mass. This concentration can be expressed as ________

A)0.071 ppm or 71 pp
B)71 ppm or 0.071 ppb.
C)14 ppm or 14,000 ppb.
D)0.71 ppm or 710 ppb.
E)5.0 ppm or 500 ppb.
Question
Adding fluoride ions to toothpaste and drinking water to prevent tooth decay is effective because fluoride ________

A)kills decay-producing bacteria.
B)produces stronger teeth.
C)reduces the solubility of tooth enamel at low pH.
D)reduces the solubility of tooth enamel at high pH.
E)prevents halitosis.
Question
What is the dominant role played by iodine in the body?

A)maintains osmotic pressure
B)transmits nerve impulses
C)forms structural materials
D)a key component in enzymes
E)important in the function of the thyroid gland
Question
Enzymes in plants convert nitrate into ammonia. The unbalanced half-reaction equation is given below. What is the stoichiometric coefficient of the nitrite ion in the balanced reaction equation? <strong>Enzymes in plants convert nitrate into ammonia. The unbalanced half-reaction equation is given below. What is the stoichiometric coefficient of the nitrite ion in the balanced reaction equation? </strong> A)0 B)1 C)2 D)3 E)4 <div style=padding-top: 35px>

A)0
B)1
C)2
D)3
E)4
Question
Plants react urea with water to produce ammonia and carbon dioxide. This reaction is an example of a ________ reaction.

A)Redox
B)metathesis
C)hydrolysis
D)combustion
E)precipitation
Question
Chromium is an ultratrace metal in the human body with a typical concentration of 5.0 mg in 75 kg of body mass. What is this concentration in units of parts per billion (ppb)?

A)6.7 ×\times 107 ppb
B)6.7 ×\times 104 ppb
C)67 ppb
D)0.067 ppb
E)0.67 ppb
Question
Adding fluoride ions to toothpaste and drinking water converts the mineral in tooth enamel, hydroxyapatite, to fluoroapatite. This conversion is beneficial in preventing tooth decay because fluoroapatite ________

A)solubility is less pH dependent.
B)makes strong hydrogen bonds.
C)prevents halitosis.
D)repels decay-producing bacteria.
E)kills decay-producing bacteria.
Question
Iodine's role is very specific. It is incorporated into a hormone, ________, that regulates energy production and use.

A)melatonin
B)thyroxine
C)dopamine
D)insulin
E)iodocin
Question
Enzymes in plants convert nitrate into ammonia. The unbalanced half-reaction equation is given below. What is the stoichiometric coefficient of the electrons, e-, in the balanced reaction equation? <strong>Enzymes in plants convert nitrate into ammonia. The unbalanced half-reaction equation is given below. What is the stoichiometric coefficient of the electrons, e<sup>-</sup>, in the balanced reaction equation? </strong> A)1 B)2 C)3 D)4 E)5 <div style=padding-top: 35px>

A)1
B)2
C)3
D)4
E)5
Question
Fluoridation to prevent tooth decay replaces ________ with fluoride in hydroxyapatite.

A)hydroxide
B)phosphate
C)phosphide
D)calcium
E)water
Question
Selenocysteine is an amino acid that gets incorporated into proteins that serve as antioxidants. Evidence points to a need for a minimum daily dose of selenium of 55 μ\mu g. How many moles of selenocysteine (C3H7NO2Se, 168 g /mol) can be synthesized using this amount of selenium?

A)3.3 ×\times 10-7 mol
B)7.0 ×\times 10-7 mol
C)3.3 ×\times 10-4 mol
D)7.0 ×\times 10-4 mol
E)3.7 ×\times 10-7 mol
Question
Radioactive 90Sr can substitute for ________ in the human body.

A)Na+
B)Ca2+
C)K+
D)S2-
E)Se2+
Question
Barium is a nonessential element in the human body, but some organisms build exoskeletons using barium sulfate, which has a Ksp of 1.1 ×\times 10-10 at 25 \circ C. What is the mass of barium in 1.0 L of a saturated solution of barium sulfate at 25 \circ C?

A)4.1 μ\mu g
B)1.4 mg
C)3.7 mg
D)7.3 μ\mu g
E)15 ng
Question
Pacemakers implanted in the chests of patients with certain heart conditions are powered by a lithium/iodine PVP battery, where PVP represents polyvinylpyridine. The cell reaction and standard cell potential are given below. The standard reduction potential for Li/Li+ is -3.05 V. What is the standard reduction potential for the iodine PVP half-reaction? <strong>Pacemakers implanted in the chests of patients with certain heart conditions are powered by a lithium/iodine PVP battery, where PVP represents polyvinylpyridine. The cell reaction and standard cell potential are given below. The standard reduction potential for Li/Li<sup>+</sup> is -3.05 V. What is the standard reduction potential for the iodine PVP half-reaction? ~~~~~~~~ 3.59 V</strong> A)(+1.50 V) B)(- 6.64 V) C)(- 0.54 V) D)(+ 6.64 V) E)(+ 0.54 V) <div style=padding-top: 35px>         ~~~~~~~~ 3.59 V

A)(+1.50 V)
B)(- 6.64 V)
C)(- 0.54 V)
D)(+ 6.64 V)
E)(+ 0.54 V)
Question
The cation BiO+ is found in some over-the-counter antacids. Draw the Lewis structure of this cation that satisfies the octet rule for both atoms. Based on this Lewis structure, this cation has ________ of nonbonding electrons.

A)a triple bond and two pairs
B)a single bond and six pairs
C)a double bond and three pairs
D)a single bond and four pairs
E)a quadruple bond and one pair
Question
Rhenium-186 has medical applications. It decays by β\beta emission. What isotope is formed from this decay?

A) <strong>Rhenium-186 has medical applications. It decays by \beta emission. What isotope is formed from this decay?</strong> A) B) C) D) E) <div style=padding-top: 35px>
B) <strong>Rhenium-186 has medical applications. It decays by \beta emission. What isotope is formed from this decay?</strong> A) B) C) D) E) <div style=padding-top: 35px>
C) <strong>Rhenium-186 has medical applications. It decays by \beta emission. What isotope is formed from this decay?</strong> A) B) C) D) E) <div style=padding-top: 35px>
D) <strong>Rhenium-186 has medical applications. It decays by \beta emission. What isotope is formed from this decay?</strong> A) B) C) D) E) <div style=padding-top: 35px>
E) <strong>Rhenium-186 has medical applications. It decays by \beta emission. What isotope is formed from this decay?</strong> A) B) C) D) E) <div style=padding-top: 35px>
Question
Thallium-201 is used in cardiac imaging. It decays by electron capture. What isotope is produced when thallium-201 captures an electron?

A)thallium-202
B)lead-201
C)lead-202
D)mercury-201
E)mercury-202
Question
Hearing aid batteries utilize a zinc/air electrochemical cell. The reduction half-reactions and standard reduction potentials for this cell are given below. What species are oxidized and reduced in the cell reaction? <strong>Hearing aid batteries utilize a zinc/air electrochemical cell. The reduction half-reactions and standard reduction potentials for this cell are given below. What species are oxidized and reduced in the cell reaction? ~~~~~~~~ -1.249 V ~~~~~~~~ +0.401 V</strong> A)Oxygen is reduced and zinc is oxidized. B)Zinc is reduced and oxygen is oxidized. C)Zinc hydroxide is reduced and oxygen is oxidized. D)Zinc hydroxide is reduced and hydroxide is oxidized. E)Water is reduced and zinc is oxidized. <div style=padding-top: 35px>         ~~~~~~~~ -1.249 V <strong>Hearing aid batteries utilize a zinc/air electrochemical cell. The reduction half-reactions and standard reduction potentials for this cell are given below. What species are oxidized and reduced in the cell reaction? ~~~~~~~~ -1.249 V ~~~~~~~~ +0.401 V</strong> A)Oxygen is reduced and zinc is oxidized. B)Zinc is reduced and oxygen is oxidized. C)Zinc hydroxide is reduced and oxygen is oxidized. D)Zinc hydroxide is reduced and hydroxide is oxidized. E)Water is reduced and zinc is oxidized. <div style=padding-top: 35px>         ~~~~~~~~ +0.401 V

A)Oxygen is reduced and zinc is oxidized.
B)Zinc is reduced and oxygen is oxidized.
C)Zinc hydroxide is reduced and oxygen is oxidized.
D)Zinc hydroxide is reduced and hydroxide is oxidized.
E)Water is reduced and zinc is oxidized.
Question
Radioactive tritium, 3H, is used as a tracer in many biological experiments. It decays by β\beta emission. What is the product of this decay?

A)(3He)
B)(4He)
C)(2H)
D)(14C)
E)(2H).
Question
Which element may contribute to sudden infant death syndrome (SIDS), as it is used as a fire retardant in mattresses?

A)bismuth
B)chromium
C)boron
D)aluminum
E)antimony
Question
Lithium is used in the treatment of which disease?

A)Anemia
B)Alzehimer's
C)Diabetes
D)bipolar disorder
E)multiple sclerosis
Question
Pacemakers implanted in the chests of patients with certain heart conditions are powered by a lithium/iodine PVP battery, where PVP represents polyvinylpyridine. The cell reaction and standard cell potential are given below. The standard reduction potential for Li/Li+ is -3.05 V. What species is oxidized in this reaction?
<strong>Pacemakers implanted in the chests of patients with certain heart conditions are powered by a lithium/iodine PVP battery, where PVP represents polyvinylpyridine. The cell reaction and standard cell potential are given below. The standard reduction potential for Li/Li<sup>+</sup> is -3.05 V. What species is oxidized in this reaction? ~~~~~~~~ 3.59 V</strong> A)Li B)I<sub>2</sub> C)I<sub>2</sub>:PVP D)PVP E)LiI <div style=padding-top: 35px>         ~~~~~~~~ 3.59 V

A)Li
B)I2
C)I2:PVP
D)PVP
E)LiI
Question
A patient is injected with a 5.0 μ\mu M solution of gallium citrate containing radioactive gallium-68 for a PET study. The half-life of gallium-68 is 9.4 hr. How long does it take for the activity of this isotope to drop to 1% of its initial value?

A)18 hr
B)25 hr
C)32 hr
D)41 hr
E)62 hr
Question
The release of radioactive cesium-137 into the environment by the nuclear accident at Chernobyl produced a health hazard because cesium ions can substitute for ________ in plants, making them unsafe for human consumption.

A)Mg2+
B)K+
C)Ca2+
D)Li+
E)H+
Question
The isotope 18F is used in a range of radio imaging applications. It has a first-order rate constant, k, of 6.30 ×\times 10-3 min-1. What is the half-life for 18F?

A)159 min
B)110 min
C)9.10 ×\times 10-3 min
D)2.34 ×\times 10-3 min
E)1,743 min
Question
Hearing aid batteries utilize a zinc/air electrochemical cell. The reduction half-reactions and standard reduction potentials for this cell are given below. Write the balanced reaction equation for the cell and report the sum of the stoichiometric coefficients.
<strong>Hearing aid batteries utilize a zinc/air electrochemical cell. The reduction half-reactions and standard reduction potentials for this cell are given below. Write the balanced reaction equation for the cell and report the sum of the stoichiometric coefficients. ~~~~~~~~ -1.249 V ~~~~~~~~ +0.401 V</strong> A)4 B)5 C)6 D)7 E)8 <div style=padding-top: 35px>         ~~~~~~~~ -1.249 V <strong>Hearing aid batteries utilize a zinc/air electrochemical cell. The reduction half-reactions and standard reduction potentials for this cell are given below. Write the balanced reaction equation for the cell and report the sum of the stoichiometric coefficients. ~~~~~~~~ -1.249 V ~~~~~~~~ +0.401 V</strong> A)4 B)5 C)6 D)7 E)8 <div style=padding-top: 35px>         ~~~~~~~~ +0.401 V

A)4
B)5
C)6
D)7
E)8
Question
The isotope 201Th is used in the diagnosis of heart disease. It has a first-order rate constant, k, of 9.49 ×\times 10-3 h-1. What is the half-life for 201Th?

A)73 hr
B)0.014 hr
C)9.49 ×\times 10-3 hr
D)7.3 hr
E)1.4 hr
Question
A radioactive isotope that emits the shortest range particles and therefore would be a good choice for implantation therapy most likely decays via ________

A)alpha particles.
B)beta particles.
C)positrons.
D)gamma rays.
E)X-rays.
Question
The essential elements found in the human body are classified as major, trace, and ultratrace based on their concentration levels. What are the concentration ranges that define each of these classifications?
Question
Hearing aid batteries utilize a zinc/air electrochemical cell. The reduction half-reactions and standard reduction potentials for this cell are given below. What is the standard cell potential of a zinc/air cell? <strong>Hearing aid batteries utilize a zinc/air electrochemical cell. The reduction half-reactions and standard reduction potentials for this cell are given below. What is the standard cell potential of a zinc/air cell? ~~~~~~~~ -1.249 V ~~~~~~~~ +0.401 V</strong> A)(-0.848 V) B)(+1.500 V) C)(+0.848 V) D)(+1.650 V) E)(-1.650 V) <div style=padding-top: 35px>         ~~~~~~~~ -1.249 V <strong>Hearing aid batteries utilize a zinc/air electrochemical cell. The reduction half-reactions and standard reduction potentials for this cell are given below. What is the standard cell potential of a zinc/air cell? ~~~~~~~~ -1.249 V ~~~~~~~~ +0.401 V</strong> A)(-0.848 V) B)(+1.500 V) C)(+0.848 V) D)(+1.650 V) E)(-1.650 V) <div style=padding-top: 35px>         ~~~~~~~~ +0.401 V

A)(-0.848 V)
B)(+1.500 V)
C)(+0.848 V)
D)(+1.650 V)
E)(-1.650 V)
Question
A patient is injected with a 5.0 μ\mu M solution of gallium citrate containing radioactive gallium-68 for a PET study. The half-life of gallium-68 is 9.4 hr. How long does it take for the activity of this isotope to drop to 1% of its initial value?

A)18 hr
B)25 hr
C)32 hr
D)41 hr
E)62 hr
Question
Calcium is a major essential element in the human body. What is the dominant role played by calcium?
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Deck 21: The Main Group Elements: Life and the Periodic Table
1
Which metal, by either mass or number of atoms, is most abundant in the human body?

A)K
B)Na
C)Mg
D)Al
E)Ca
Ca
2
Which element, by the number of atoms, is least abundant in the human body?

A)sodium
B)calcium
C)potassium
D)magnesium
E)nitrogen
magnesium
3
What is the dominant role played by calcium in the body?

A)maintains osmotic pressure
B)transmits nerve impulses
C)forms structural materials
D)a key component in enzymes
E)important in the function of the thyroid gland
forms structural materials
4
The concentration of an ultratrace essential element in the body is less than ________ per gram of body mass.

A)1 g
B)10 mg
C)1 mg
D)10 μ\mu g
E)1 μ\mu g
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5
Cell membranes are formed by ________

A)a lipid layer.
B)a lipid bilayer.
C)a phospholipid bilayer.
D)cellulose.
E)starch.
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6
The ion found in chlorophyll is ________

A)Zn2+
B)Mg2+
C)Ca2+
D)Fe2+
E)Cu2+
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7
Magnesium is found in which one of the following important biological molecules?

A)chlorophyll
B)hemoglobin
C)cytochrome C
D)ferredoxin
E)adenosine triphosphate
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8
Which of the following elements, by mass, is the most abundant in the universe?

A)iron
B)oxygen
C)helium
D)nitrogen
E)carbon
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9
The concentration of a major essential element in the body is greater than ________ per gram of body mass.

A)1 g
B)10 mg
C)1 mg
D)10 μ\mu g
E)1 μ\mu g
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10
Which element, by mass, is most abundant in the human body?

A)carbon
B)oxygen
C)hydrogen
D)nitrogen
E)calcium
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11
Which element, by the number of atoms, is most abundant in the human body?

A)carbon
B)oxygen
C)hydrogen
D)nitrogen
E)calcium
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12
Which anion is most abundant in the human body?

A)I-
B)Br -
C)CO32-
D)Cl-
E)NO3-
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13
The Mg2+ ion plays a significant role in the human body by

A)maintaining osmotic pressure.
B)forming structure support for the body.
C)transmitting nerve impulses.
D)balancing ion flow in the bloodstream.
E)participating in ATP hydrolysis and ADP phosphorylation.
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14
The concentration of a trace essential element in the body is typically in the range of ________ per gram of body mass.

A)1 μ\mu g to 1 mg
B)1 μ\mu g to 10 mg
C)10 μ\mu g to 10 mg
D)10 μ\mu g to 100 mg
E)100 μ\mu g to 100 mg
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15
An essential biological element ________

A)is any element detected in the organism.
B)stimulates essential biological functions.
C)is found in all organisms.
D)has beneficial physiological effects, and its absence impairs function of the organism.
E)is expensive.
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16
Which of the following is not a characteristic of a nonessential biological element?

A)detected in the body but has no clear biological function
B)has a stimulatory effect on biological functions
C)is incorporated into biological compounds because it is similar to essential elements
D)has clear biological functions
E)organisms require them for survival
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17
Which ion is important in transmitting nerve impulses?

A)Na+
B)Mg2+
C)Fe2+
D)Zn2+
E)Li+
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18
Cell membranes assemble ________

A)to orient nonpolar fatty acid chains toward the interior of the cell.
B)as a bilayer with the nonpolar portion of the bilayer on the membrane exterior.
C)to orient polar head groups toward the interior and exterior of the cell.
D)based on electrostatic attractions between phospholipid molecules.
E)with polar head groups located within the interior of the membrane.
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19
Which metal, by the number of atoms, is most abundant in the human body?

A)sodium
B)calcium
C)potassium
D)magnesium
E)iron
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20
Nickel-cadmium batteries thrown into landfills can introduce cadmium ions into the groundwater. Cadmium ions can replace ________ in bones, which can weaken them.

A)Na+
B)K+
C)Zn2+
D)Ca2+
E)Mg2+
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21
Enzymes in plants convert nitrate into ammonia. The unbalanced half-reaction equation is given below. What is the stoichiometric coefficient of water in the balanced reaction equation? <strong>Enzymes in plants convert nitrate into ammonia. The unbalanced half-reaction equation is given below. What is the stoichiometric coefficient of water in the balanced reaction equation? </strong> A)0 B)1 C)2 D)3 E)4

A)0
B)1
C)2
D)3
E)4
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22
The concentration of chloride in the human body is approximately 19 mg/g of body mass. What is this concentration in ppb (parts per billion)?

A)1.9 ×\times 10-2 ppb
B)1.9 ×\times 107 ppb
C)1.9 ×\times 104 ppb
D)1,900 ppb
E)190 ppb
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23
Ion channels in cell membranes control selective transport of ions based on what property(ies)?

A)size
B)electronegativity
C)charge
D)A and C
E)B and C
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24
The concentration of sodium in the human body is approximately 1.5 mg/g of body mass. What is this concentration in ppm (parts per million)?

A)1.5 ×\times 106 ppm
B)1.5 ×\times 10-3 ppm
C)0.015 ppm
D)1,500 ppm
E)150 ppm
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25
The nucleus of a cell has a pH of approximately 7.3. What is the molar concentration of hydroxide in the nucleus of a cell?

A)5.00 ×\times 10-8 M
B)3.27 ×\times 10-5 M
C)2.00 ×\times 10-7 M
D)3.06 ×\times 10-10 M
E)7.31 ×\times 10-4 M
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26
Plants convert nitrate into ammonia by using enzymes called ________

A)peptidases.
B)amylases.
C)anhydrases.
D)oxidases.
E)reductases.
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27
Tooth enamel is composed of the mineral hydroxyapatite. It is essentially insoluble in water with Ksp = 2.3 ×\times 10-59, but it reacts with weak acids in the mouth as described by one of the reaction equations below. You can determine the equilibrium constant, K, for this reaction from Ksp and Kw (the equilibrium constant for water autoionization, Kw = 1.0 ×\times 10-14). What is the value of K?
<strong>Tooth enamel is composed of the mineral hydroxyapatite. It is essentially insoluble in water with K<sub>sp</sub> = 2.3 \times 10<sup>-59</sup>, but it reacts with weak acids in the mouth as described by one of the reaction equations below. You can determine the equilibrium constant, K, for this reaction from K<sub>sp</sub> and K<sub>w</sub> (the equilibrium constant for water autoionization, K<sub>w</sub> = 1.0 \times 10<sup>-14</sup>). What is the value of K? </strong> A)2.3 \times 10 <sup>-73</sup> B)4.3 \times 10 <sup>45</sup> C)2.3 \times 10 <sup>-45</sup> D)1.1 \times 10 <sup>-14</sup> E)9.9 \times 10 <sup>-15</sup>
<strong>Tooth enamel is composed of the mineral hydroxyapatite. It is essentially insoluble in water with K<sub>sp</sub> = 2.3 \times 10<sup>-59</sup>, but it reacts with weak acids in the mouth as described by one of the reaction equations below. You can determine the equilibrium constant, K, for this reaction from K<sub>sp</sub> and K<sub>w</sub> (the equilibrium constant for water autoionization, K<sub>w</sub> = 1.0 \times 10<sup>-14</sup>). What is the value of K? </strong> A)2.3 \times 10 <sup>-73</sup> B)4.3 \times 10 <sup>45</sup> C)2.3 \times 10 <sup>-45</sup> D)1.1 \times 10 <sup>-14</sup> E)9.9 \times 10 <sup>-15</sup>
<strong>Tooth enamel is composed of the mineral hydroxyapatite. It is essentially insoluble in water with K<sub>sp</sub> = 2.3 \times 10<sup>-59</sup>, but it reacts with weak acids in the mouth as described by one of the reaction equations below. You can determine the equilibrium constant, K, for this reaction from K<sub>sp</sub> and K<sub>w</sub> (the equilibrium constant for water autoionization, K<sub>w</sub> = 1.0 \times 10<sup>-14</sup>). What is the value of K? </strong> A)2.3 \times 10 <sup>-73</sup> B)4.3 \times 10 <sup>45</sup> C)2.3 \times 10 <sup>-45</sup> D)1.1 \times 10 <sup>-14</sup> E)9.9 \times 10 <sup>-15</sup>
<strong>Tooth enamel is composed of the mineral hydroxyapatite. It is essentially insoluble in water with K<sub>sp</sub> = 2.3 \times 10<sup>-59</sup>, but it reacts with weak acids in the mouth as described by one of the reaction equations below. You can determine the equilibrium constant, K, for this reaction from K<sub>sp</sub> and K<sub>w</sub> (the equilibrium constant for water autoionization, K<sub>w</sub> = 1.0 \times 10<sup>-14</sup>). What is the value of K? </strong> A)2.3 \times 10 <sup>-73</sup> B)4.3 \times 10 <sup>45</sup> C)2.3 \times 10 <sup>-45</sup> D)1.1 \times 10 <sup>-14</sup> E)9.9 \times 10 <sup>-15</sup>
<strong>Tooth enamel is composed of the mineral hydroxyapatite. It is essentially insoluble in water with K<sub>sp</sub> = 2.3 \times 10<sup>-59</sup>, but it reacts with weak acids in the mouth as described by one of the reaction equations below. You can determine the equilibrium constant, K, for this reaction from K<sub>sp</sub> and K<sub>w</sub> (the equilibrium constant for water autoionization, K<sub>w</sub> = 1.0 \times 10<sup>-14</sup>). What is the value of K? </strong> A)2.3 \times 10 <sup>-73</sup> B)4.3 \times 10 <sup>45</sup> C)2.3 \times 10 <sup>-45</sup> D)1.1 \times 10 <sup>-14</sup> E)9.9 \times 10 <sup>-15</sup>
<strong>Tooth enamel is composed of the mineral hydroxyapatite. It is essentially insoluble in water with K<sub>sp</sub> = 2.3 \times 10<sup>-59</sup>, but it reacts with weak acids in the mouth as described by one of the reaction equations below. You can determine the equilibrium constant, K, for this reaction from K<sub>sp</sub> and K<sub>w</sub> (the equilibrium constant for water autoionization, K<sub>w</sub> = 1.0 \times 10<sup>-14</sup>). What is the value of K? </strong> A)2.3 \times 10 <sup>-73</sup> B)4.3 \times 10 <sup>45</sup> C)2.3 \times 10 <sup>-45</sup> D)1.1 \times 10 <sup>-14</sup> E)9.9 \times 10 <sup>-15</sup>

A)2.3 ×\times 10 -73
B)4.3 ×\times 10 45
C)2.3 ×\times 10 -45
D)1.1 ×\times 10 -14
E)9.9 ×\times 10 -15
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28
The average concentration of calcium in the human body is 15 mg/g of body mass. What is the mass of calcium in the body of a person weighing 150 lb? (1 lb = 454 g)

A)1.0 lb
B)0.023 lb
C)23 lb
D)100 lb
E)2.3 lb
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29
Different concentrations of ions on either side of a cell membrane constitute a concentration cell, which is described by the Nernst equation given below. What is the electrochemical potential across a membrane when the sodium ion concentration is 0.10 M on one side of the membrane and 0.010 M on the other side, and the temperature is 37 \circ C (body temperature)? (Given: <strong>Different concentrations of ions on either side of a cell membrane constitute a concentration cell, which is described by the Nernst equation given below. What is the electrochemical potential across a membrane when the sodium ion concentration is 0.10 M on one side of the membrane and 0.010 M on the other side, and the temperature is 37<sup> \circ </sup>C (body temperature)? (Given: , = -2.71 V; F =96,485 C; 1 J = 1 C V; R = 8.315 J / (mol K)) E = E<sup> \circ </sup> - InQ</strong> A)61.5 mV B)26.7 mV C)2.65 V D)2.68 V E)2.98 V , <strong>Different concentrations of ions on either side of a cell membrane constitute a concentration cell, which is described by the Nernst equation given below. What is the electrochemical potential across a membrane when the sodium ion concentration is 0.10 M on one side of the membrane and 0.010 M on the other side, and the temperature is 37<sup> \circ </sup>C (body temperature)? (Given: , = -2.71 V; F =96,485 C; 1 J = 1 C V; R = 8.315 J / (mol K)) E = E<sup> \circ </sup> - InQ</strong> A)61.5 mV B)26.7 mV C)2.65 V D)2.68 V E)2.98 V = -2.71 V; F =96,485 C; 1 J = 1 C V; R = 8.315 J / (mol K))
E = E \circ - <strong>Different concentrations of ions on either side of a cell membrane constitute a concentration cell, which is described by the Nernst equation given below. What is the electrochemical potential across a membrane when the sodium ion concentration is 0.10 M on one side of the membrane and 0.010 M on the other side, and the temperature is 37<sup> \circ </sup>C (body temperature)? (Given: , = -2.71 V; F =96,485 C; 1 J = 1 C V; R = 8.315 J / (mol K)) E = E<sup> \circ </sup> - InQ</strong> A)61.5 mV B)26.7 mV C)2.65 V D)2.68 V E)2.98 V InQ

A)61.5 mV
B)26.7 mV
C)2.65 V
D)2.68 V
E)2.98 V
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30
How much energy must be expended by a cell to transport 1 mole of sodium ions across a membrane with an electrochemical potential of 62 mV in order to maintain this potential?

A)50 kJ
B)260 kJ
C)6.0 kJ
D)250 kJ
E)6,000 kJ
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31
Calcium carbonate is used to form exoskeletons. It has a solubility-product constant of 5.0 ×\times 10 -9. What is the molar concentration of calcium ions in a saturated solution of calcium carbonate?

A)2.5 ×\times 10-9 M
B)7.1 ×\times 10-5 M
C)3.5 ×\times 10 -5 M
D)5.0 ×\times 10-9 M
E)4.7 ×\times 10 -7 M
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32
Urea is a waste product produced when the body metabolizes protein. What is the oxidation number of nitrogen in urea, (NH2)2CO?

A)(+3)
B)(-3)
C)1
D)(-1)
E)(-4)
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33
Which statement describing the mechanisms by which sodium ions pass through cell membranes is not correct?

A)Groups of proteins form ion channels for sodium ions.
B)Sodium ions can be transported by Na+-K+ pumps.
C)Membrane proteins pump sodium ions through the membrane.
D)Sodium ions form complexes with nonpolar ligands that can diffuse through the membrane.
E)Sodium ions can diffuse directly through the membrane.
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34
Plants convert nitrogen into ammonia. This biological nitrogen fixation is effected by enzymes called nitrogenases. The enzymes assist in the transfer of electrons. The unbalanced reaction equation is <strong>Plants convert nitrogen into ammonia. This biological nitrogen fixation is effected by enzymes called nitrogenases. The enzymes assist in the transfer of electrons. The unbalanced reaction equation is What is the stoichiometric coefficient for ammonia in the balanced reaction equation?</strong> A)1 B)2 C)4 D)6 E)8 What is the stoichiometric coefficient for ammonia in the balanced reaction equation?

A)1
B)2
C)4
D)6
E)8
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35
Different concentrations of ions on either side of a cell membrane constitute a concentration cell, which is described by the Nernst equation given below. A cell must expend energy to maintain this concentration gradient by moving ions from one side of the membrane to the other. How much energy must be expended to transport 1 mole of sodium ions across a membrane when the sodium ion concentration is 0.10 M on one side of the membrane and 0.010 M on the other side, and the temperature is 37 \circ C (body temperature)? (Given: <strong>Different concentrations of ions on either side of a cell membrane constitute a concentration cell, which is described by the Nernst equation given below. A cell must expend energy to maintain this concentration gradient by moving ions from one side of the membrane to the other. How much energy must be expended to transport 1 mole of sodium ions across a membrane when the sodium ion concentration is 0.10 M on one side of the membrane and 0.010 M on the other side, and the temperature is 37<sup> \circ </sup>C (body temperature)? (Given: , <sup> </sup>= -2.71 V; F = 96,485 C; 1 J = 1 C V; R = 8.315 J / (mol K)) E = E<sup> \circ </sup> - InQ</strong> A)50 kJ B)260 kJ C)6.0 kJ D)250 kJ E)6,000 kJ , <strong>Different concentrations of ions on either side of a cell membrane constitute a concentration cell, which is described by the Nernst equation given below. A cell must expend energy to maintain this concentration gradient by moving ions from one side of the membrane to the other. How much energy must be expended to transport 1 mole of sodium ions across a membrane when the sodium ion concentration is 0.10 M on one side of the membrane and 0.010 M on the other side, and the temperature is 37<sup> \circ </sup>C (body temperature)? (Given: , <sup> </sup>= -2.71 V; F = 96,485 C; 1 J = 1 C V; R = 8.315 J / (mol K)) E = E<sup> \circ </sup> - InQ</strong> A)50 kJ B)260 kJ C)6.0 kJ D)250 kJ E)6,000 kJ = -2.71 V; F = 96,485 C; 1 J = 1 C V; R = 8.315 J / (mol K))
E = E \circ - <strong>Different concentrations of ions on either side of a cell membrane constitute a concentration cell, which is described by the Nernst equation given below. A cell must expend energy to maintain this concentration gradient by moving ions from one side of the membrane to the other. How much energy must be expended to transport 1 mole of sodium ions across a membrane when the sodium ion concentration is 0.10 M on one side of the membrane and 0.010 M on the other side, and the temperature is 37<sup> \circ </sup>C (body temperature)? (Given: , <sup> </sup>= -2.71 V; F = 96,485 C; 1 J = 1 C V; R = 8.315 J / (mol K)) E = E<sup> \circ </sup> - InQ</strong> A)50 kJ B)260 kJ C)6.0 kJ D)250 kJ E)6,000 kJ InQ

A)50 kJ
B)260 kJ
C)6.0 kJ
D)250 kJ
E)6,000 kJ
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36
Tooth enamel is composed of the calcium compound called ________

A)hydrophilite.
B)apatite.
C)hydroxyapatite.
D)calcite.
E)andradite.
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37
Stomach acid is 0.16 M HCl. What is the pH of stomach acid?

A)0.80
B)8.0
C)(-0.80)
D)0.69
E)(-8.0)
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38
Tooth enamel is composed of the mineral hydroxyapatite. It is essentially insoluble in water with Ksp = 2.3 ×\times 10-59, but it reacts with weak acids in the mouth as described by one of the reaction equations below. You can determine the equilibrium constant, K, for this reaction from Ksp and Kw (the equilibrium constant for water autoionization). How do you do this?
<strong>Tooth enamel is composed of the mineral hydroxyapatite. It is essentially insoluble in water with K<sub>sp</sub> = 2.3 \times 10<sup>-59</sup>, but it reacts with weak acids in the mouth as described by one of the reaction equations below. You can determine the equilibrium constant, K, for this reaction from K<sub>sp</sub> and K<sub>w</sub> (the equilibrium constant for water autoionization). How do you do this? </strong> A)K = K<sub>w</sub>K<sub>sp</sub> B)K = K<sub>w </sub>/K<sub>sp</sub>. C)K = K<sub>sp </sub>/K<sub>w</sub> D)K = K<sub>w</sub> = K<sub>sp</sub> E)K = K<sub>w</sub> = K<sub>sp</sub> .
<strong>Tooth enamel is composed of the mineral hydroxyapatite. It is essentially insoluble in water with K<sub>sp</sub> = 2.3 \times 10<sup>-59</sup>, but it reacts with weak acids in the mouth as described by one of the reaction equations below. You can determine the equilibrium constant, K, for this reaction from K<sub>sp</sub> and K<sub>w</sub> (the equilibrium constant for water autoionization). How do you do this? </strong> A)K = K<sub>w</sub>K<sub>sp</sub> B)K = K<sub>w </sub>/K<sub>sp</sub>. C)K = K<sub>sp </sub>/K<sub>w</sub> D)K = K<sub>w</sub> = K<sub>sp</sub> E)K = K<sub>w</sub> = K<sub>sp</sub> .
<strong>Tooth enamel is composed of the mineral hydroxyapatite. It is essentially insoluble in water with K<sub>sp</sub> = 2.3 \times 10<sup>-59</sup>, but it reacts with weak acids in the mouth as described by one of the reaction equations below. You can determine the equilibrium constant, K, for this reaction from K<sub>sp</sub> and K<sub>w</sub> (the equilibrium constant for water autoionization). How do you do this? </strong> A)K = K<sub>w</sub>K<sub>sp</sub> B)K = K<sub>w </sub>/K<sub>sp</sub>. C)K = K<sub>sp </sub>/K<sub>w</sub> D)K = K<sub>w</sub> = K<sub>sp</sub> E)K = K<sub>w</sub> = K<sub>sp</sub> .
<strong>Tooth enamel is composed of the mineral hydroxyapatite. It is essentially insoluble in water with K<sub>sp</sub> = 2.3 \times 10<sup>-59</sup>, but it reacts with weak acids in the mouth as described by one of the reaction equations below. You can determine the equilibrium constant, K, for this reaction from K<sub>sp</sub> and K<sub>w</sub> (the equilibrium constant for water autoionization). How do you do this? </strong> A)K = K<sub>w</sub>K<sub>sp</sub> B)K = K<sub>w </sub>/K<sub>sp</sub>. C)K = K<sub>sp </sub>/K<sub>w</sub> D)K = K<sub>w</sub> = K<sub>sp</sub> E)K = K<sub>w</sub> = K<sub>sp</sub> .
<strong>Tooth enamel is composed of the mineral hydroxyapatite. It is essentially insoluble in water with K<sub>sp</sub> = 2.3 \times 10<sup>-59</sup>, but it reacts with weak acids in the mouth as described by one of the reaction equations below. You can determine the equilibrium constant, K, for this reaction from K<sub>sp</sub> and K<sub>w</sub> (the equilibrium constant for water autoionization). How do you do this? </strong> A)K = K<sub>w</sub>K<sub>sp</sub> B)K = K<sub>w </sub>/K<sub>sp</sub>. C)K = K<sub>sp </sub>/K<sub>w</sub> D)K = K<sub>w</sub> = K<sub>sp</sub> E)K = K<sub>w</sub> = K<sub>sp</sub> .
<strong>Tooth enamel is composed of the mineral hydroxyapatite. It is essentially insoluble in water with K<sub>sp</sub> = 2.3 \times 10<sup>-59</sup>, but it reacts with weak acids in the mouth as described by one of the reaction equations below. You can determine the equilibrium constant, K, for this reaction from K<sub>sp</sub> and K<sub>w</sub> (the equilibrium constant for water autoionization). How do you do this? </strong> A)K = K<sub>w</sub>K<sub>sp</sub> B)K = K<sub>w </sub>/K<sub>sp</sub>. C)K = K<sub>sp </sub>/K<sub>w</sub> D)K = K<sub>w</sub> = K<sub>sp</sub> E)K = K<sub>w</sub> = K<sub>sp</sub> .

A)K = KwKsp
B)K = Kw /Ksp.
C)K = Ksp /Kw
D)K = Kw = Ksp
E)K = Kw = Ksp .
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39
Enzymes in plants convert nitrate into ammonia. The unbalanced half-reaction equation is given below. What is the change in oxidation number of nitrogen in this reaction? <strong>Enzymes in plants convert nitrate into ammonia. The unbalanced half-reaction equation is given below. What is the change in oxidation number of nitrogen in this reaction? </strong> A)0 B)(+5) C)(+3) D)(-2) E)(-3)

A)0
B)(+5)
C)(+3)
D)(-2)
E)(-3)
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40
Plants convert nitrogen into ammonia. This biological nitrogen fixation is effected by enzymes called nitrogenases. The enzymes assist in the transfer of electrons. The unbalanced reaction equation is <strong>Plants convert nitrogen into ammonia. This biological nitrogen fixation is effected by enzymes called nitrogenases. The enzymes assist in the transfer of electrons. The unbalanced reaction equation is What is the change in the oxidation number of nitrogen in this reaction?</strong> A)(+1) B)(-3) C)(+3) D)(+2) E)(-1)
What is the change in the oxidation number of nitrogen in this reaction?

A)(+1)
B)(-3)
C)(+3)
D)(+2)
E)(-1)
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41
Plants convert nitrogen into ammonia. This biological nitrogen fixation is affected by enzymes called nitrogenases. The enzymes assist in the transfer of electrons. The unbalanced reaction equation is <strong>Plants convert nitrogen into ammonia. This biological nitrogen fixation is affected by enzymes called nitrogenases. The enzymes assist in the transfer of electrons. The unbalanced reaction equation is What is the stoichiometric coefficient for H<sup>+</sup> in the balanced reaction equation?</strong> A)1 B)2 C)4 D)6 E)8 What is the stoichiometric coefficient for H+ in the balanced reaction equation?

A)1
B)2
C)4
D)6
E)8
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42
Selenium can substitute for sulfur in the amino acid cysteine to make the amino acid selenocysteine because ________

A)sulfur and selenium both begin with s.
B)their atomic symbols are similar.
C)both have about the same atomic radius.
D)both have the same valence electron configuration.
E)both have about the same ionization potential.
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43
Plants convert nitrogen into ammonia. This biological nitrogen fixation is effected by enzymes called nitrogenases. The enzymes assist in the transfer of electrons. The unbalanced reaction equation is <strong>Plants convert nitrogen into ammonia. This biological nitrogen fixation is effected by enzymes called nitrogenases. The enzymes assist in the transfer of electrons. The unbalanced reaction equation is What is the stoichiometric coefficient for the electrons in the balanced reaction equation?</strong> A)1 B)2 C)4 D)6 E)8 What is the stoichiometric coefficient for the electrons in the balanced reaction equation?

A)1
B)2
C)4
D)6
E)8
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44
The active site of an enzyme typically contains ________

A)an alkali metal.
B)an alkaline earth metal.
C)a transition metal.
D)an actinide metal.
E)a lanthanide metal.
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45
Copper is a trace metal in the human body with a typical concentration of 110 mg in 75 kg of body mass. What is this concentration in units of parts per million (ppm)?

A)1.5 ×\times 10-6 ppm
B)1.5 ppm
C)1.1 ×\times 10-5 ppm
D)1.1 ×\times 10-7 ppm
E)150 ppm
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46
Vanadium is an ultratrace metal in the human body with a typical concentration of approximately 17 ng/g body mass. How many milligrams of V are there in a person weighing 185 lb? 1 lb = 454 g

A)1.43 ×\times 10-2 mg
B)1.43 mg
C)143 mg
D)1430 mg
E)14,300 mg
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47
Hydroxyapatite, which is a component of tooth enamel, is very insoluble in water. For the following reaction, Ksp = 2.3 ×\times 10-59. <strong>Hydroxyapatite, which is a component of tooth enamel, is very insoluble in water. For the following reaction, K<sub>sp</sub> = 2.3 \times 10<sup>-59</sup>. What is the molar concentration of Ca<sub>5</sub>(PO<sub>4</sub>)<sub>3</sub><sup>+</sup> when the pH of the mouth is 4.0?</strong> A)2.3 \times 10<sup>-49</sup> M B)2.3 \times 10<sup>-59</sup> M C)2.3 \times 10<sup>--55</sup> M D)2.3 \times 10<sup>-63</sup> M E)0, teeth don't dissolve! <strong>Hydroxyapatite, which is a component of tooth enamel, is very insoluble in water. For the following reaction, K<sub>sp</sub> = 2.3 \times 10<sup>-59</sup>. What is the molar concentration of Ca<sub>5</sub>(PO<sub>4</sub>)<sub>3</sub><sup>+</sup> when the pH of the mouth is 4.0?</strong> A)2.3 \times 10<sup>-49</sup> M B)2.3 \times 10<sup>-59</sup> M C)2.3 \times 10<sup>--55</sup> M D)2.3 \times 10<sup>-63</sup> M E)0, teeth don't dissolve! <strong>Hydroxyapatite, which is a component of tooth enamel, is very insoluble in water. For the following reaction, K<sub>sp</sub> = 2.3 \times 10<sup>-59</sup>. What is the molar concentration of Ca<sub>5</sub>(PO<sub>4</sub>)<sub>3</sub><sup>+</sup> when the pH of the mouth is 4.0?</strong> A)2.3 \times 10<sup>-49</sup> M B)2.3 \times 10<sup>-59</sup> M C)2.3 \times 10<sup>--55</sup> M D)2.3 \times 10<sup>-63</sup> M E)0, teeth don't dissolve! What is the molar concentration of Ca5(PO4)3+ when the pH of the mouth is 4.0?

A)2.3 ×\times 10-49 M
B)2.3 ×\times 10-59 M
C)2.3 ×\times 10--55 M
D)2.3 ×\times 10-63 M
E)0, teeth don't dissolve!
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48
Selenium is an ultratrace element that is essential for life. It is used in the synthesis of ________, which is ________.

A)selenocysteine; a lipid
B)cysteine; an amino acid
C)selenocysteine; an amino acid
D)selenocysteine; a fatty acid
E)selenothymine; a nucleic acid base
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49
Chromium is an ultratrace metal in the human body. The typical concentration is 5.0 mg in 70.0 kg of body mass. This concentration can be expressed as ________

A)0.071 ppm or 71 pp
B)71 ppm or 0.071 ppb.
C)14 ppm or 14,000 ppb.
D)0.71 ppm or 710 ppb.
E)5.0 ppm or 500 ppb.
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50
Adding fluoride ions to toothpaste and drinking water to prevent tooth decay is effective because fluoride ________

A)kills decay-producing bacteria.
B)produces stronger teeth.
C)reduces the solubility of tooth enamel at low pH.
D)reduces the solubility of tooth enamel at high pH.
E)prevents halitosis.
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51
What is the dominant role played by iodine in the body?

A)maintains osmotic pressure
B)transmits nerve impulses
C)forms structural materials
D)a key component in enzymes
E)important in the function of the thyroid gland
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52
Enzymes in plants convert nitrate into ammonia. The unbalanced half-reaction equation is given below. What is the stoichiometric coefficient of the nitrite ion in the balanced reaction equation? <strong>Enzymes in plants convert nitrate into ammonia. The unbalanced half-reaction equation is given below. What is the stoichiometric coefficient of the nitrite ion in the balanced reaction equation? </strong> A)0 B)1 C)2 D)3 E)4

A)0
B)1
C)2
D)3
E)4
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53
Plants react urea with water to produce ammonia and carbon dioxide. This reaction is an example of a ________ reaction.

A)Redox
B)metathesis
C)hydrolysis
D)combustion
E)precipitation
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54
Chromium is an ultratrace metal in the human body with a typical concentration of 5.0 mg in 75 kg of body mass. What is this concentration in units of parts per billion (ppb)?

A)6.7 ×\times 107 ppb
B)6.7 ×\times 104 ppb
C)67 ppb
D)0.067 ppb
E)0.67 ppb
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55
Adding fluoride ions to toothpaste and drinking water converts the mineral in tooth enamel, hydroxyapatite, to fluoroapatite. This conversion is beneficial in preventing tooth decay because fluoroapatite ________

A)solubility is less pH dependent.
B)makes strong hydrogen bonds.
C)prevents halitosis.
D)repels decay-producing bacteria.
E)kills decay-producing bacteria.
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56
Iodine's role is very specific. It is incorporated into a hormone, ________, that regulates energy production and use.

A)melatonin
B)thyroxine
C)dopamine
D)insulin
E)iodocin
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57
Enzymes in plants convert nitrate into ammonia. The unbalanced half-reaction equation is given below. What is the stoichiometric coefficient of the electrons, e-, in the balanced reaction equation? <strong>Enzymes in plants convert nitrate into ammonia. The unbalanced half-reaction equation is given below. What is the stoichiometric coefficient of the electrons, e<sup>-</sup>, in the balanced reaction equation? </strong> A)1 B)2 C)3 D)4 E)5

A)1
B)2
C)3
D)4
E)5
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58
Fluoridation to prevent tooth decay replaces ________ with fluoride in hydroxyapatite.

A)hydroxide
B)phosphate
C)phosphide
D)calcium
E)water
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59
Selenocysteine is an amino acid that gets incorporated into proteins that serve as antioxidants. Evidence points to a need for a minimum daily dose of selenium of 55 μ\mu g. How many moles of selenocysteine (C3H7NO2Se, 168 g /mol) can be synthesized using this amount of selenium?

A)3.3 ×\times 10-7 mol
B)7.0 ×\times 10-7 mol
C)3.3 ×\times 10-4 mol
D)7.0 ×\times 10-4 mol
E)3.7 ×\times 10-7 mol
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60
Radioactive 90Sr can substitute for ________ in the human body.

A)Na+
B)Ca2+
C)K+
D)S2-
E)Se2+
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61
Barium is a nonessential element in the human body, but some organisms build exoskeletons using barium sulfate, which has a Ksp of 1.1 ×\times 10-10 at 25 \circ C. What is the mass of barium in 1.0 L of a saturated solution of barium sulfate at 25 \circ C?

A)4.1 μ\mu g
B)1.4 mg
C)3.7 mg
D)7.3 μ\mu g
E)15 ng
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62
Pacemakers implanted in the chests of patients with certain heart conditions are powered by a lithium/iodine PVP battery, where PVP represents polyvinylpyridine. The cell reaction and standard cell potential are given below. The standard reduction potential for Li/Li+ is -3.05 V. What is the standard reduction potential for the iodine PVP half-reaction? <strong>Pacemakers implanted in the chests of patients with certain heart conditions are powered by a lithium/iodine PVP battery, where PVP represents polyvinylpyridine. The cell reaction and standard cell potential are given below. The standard reduction potential for Li/Li<sup>+</sup> is -3.05 V. What is the standard reduction potential for the iodine PVP half-reaction? ~~~~~~~~ 3.59 V</strong> A)(+1.50 V) B)(- 6.64 V) C)(- 0.54 V) D)(+ 6.64 V) E)(+ 0.54 V)         ~~~~~~~~ 3.59 V

A)(+1.50 V)
B)(- 6.64 V)
C)(- 0.54 V)
D)(+ 6.64 V)
E)(+ 0.54 V)
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63
The cation BiO+ is found in some over-the-counter antacids. Draw the Lewis structure of this cation that satisfies the octet rule for both atoms. Based on this Lewis structure, this cation has ________ of nonbonding electrons.

A)a triple bond and two pairs
B)a single bond and six pairs
C)a double bond and three pairs
D)a single bond and four pairs
E)a quadruple bond and one pair
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64
Rhenium-186 has medical applications. It decays by β\beta emission. What isotope is formed from this decay?

A) <strong>Rhenium-186 has medical applications. It decays by \beta emission. What isotope is formed from this decay?</strong> A) B) C) D) E)
B) <strong>Rhenium-186 has medical applications. It decays by \beta emission. What isotope is formed from this decay?</strong> A) B) C) D) E)
C) <strong>Rhenium-186 has medical applications. It decays by \beta emission. What isotope is formed from this decay?</strong> A) B) C) D) E)
D) <strong>Rhenium-186 has medical applications. It decays by \beta emission. What isotope is formed from this decay?</strong> A) B) C) D) E)
E) <strong>Rhenium-186 has medical applications. It decays by \beta emission. What isotope is formed from this decay?</strong> A) B) C) D) E)
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65
Thallium-201 is used in cardiac imaging. It decays by electron capture. What isotope is produced when thallium-201 captures an electron?

A)thallium-202
B)lead-201
C)lead-202
D)mercury-201
E)mercury-202
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66
Hearing aid batteries utilize a zinc/air electrochemical cell. The reduction half-reactions and standard reduction potentials for this cell are given below. What species are oxidized and reduced in the cell reaction? <strong>Hearing aid batteries utilize a zinc/air electrochemical cell. The reduction half-reactions and standard reduction potentials for this cell are given below. What species are oxidized and reduced in the cell reaction? ~~~~~~~~ -1.249 V ~~~~~~~~ +0.401 V</strong> A)Oxygen is reduced and zinc is oxidized. B)Zinc is reduced and oxygen is oxidized. C)Zinc hydroxide is reduced and oxygen is oxidized. D)Zinc hydroxide is reduced and hydroxide is oxidized. E)Water is reduced and zinc is oxidized.         ~~~~~~~~ -1.249 V <strong>Hearing aid batteries utilize a zinc/air electrochemical cell. The reduction half-reactions and standard reduction potentials for this cell are given below. What species are oxidized and reduced in the cell reaction? ~~~~~~~~ -1.249 V ~~~~~~~~ +0.401 V</strong> A)Oxygen is reduced and zinc is oxidized. B)Zinc is reduced and oxygen is oxidized. C)Zinc hydroxide is reduced and oxygen is oxidized. D)Zinc hydroxide is reduced and hydroxide is oxidized. E)Water is reduced and zinc is oxidized.         ~~~~~~~~ +0.401 V

A)Oxygen is reduced and zinc is oxidized.
B)Zinc is reduced and oxygen is oxidized.
C)Zinc hydroxide is reduced and oxygen is oxidized.
D)Zinc hydroxide is reduced and hydroxide is oxidized.
E)Water is reduced and zinc is oxidized.
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67
Radioactive tritium, 3H, is used as a tracer in many biological experiments. It decays by β\beta emission. What is the product of this decay?

A)(3He)
B)(4He)
C)(2H)
D)(14C)
E)(2H).
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68
Which element may contribute to sudden infant death syndrome (SIDS), as it is used as a fire retardant in mattresses?

A)bismuth
B)chromium
C)boron
D)aluminum
E)antimony
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69
Lithium is used in the treatment of which disease?

A)Anemia
B)Alzehimer's
C)Diabetes
D)bipolar disorder
E)multiple sclerosis
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70
Pacemakers implanted in the chests of patients with certain heart conditions are powered by a lithium/iodine PVP battery, where PVP represents polyvinylpyridine. The cell reaction and standard cell potential are given below. The standard reduction potential for Li/Li+ is -3.05 V. What species is oxidized in this reaction?
<strong>Pacemakers implanted in the chests of patients with certain heart conditions are powered by a lithium/iodine PVP battery, where PVP represents polyvinylpyridine. The cell reaction and standard cell potential are given below. The standard reduction potential for Li/Li<sup>+</sup> is -3.05 V. What species is oxidized in this reaction? ~~~~~~~~ 3.59 V</strong> A)Li B)I<sub>2</sub> C)I<sub>2</sub>:PVP D)PVP E)LiI         ~~~~~~~~ 3.59 V

A)Li
B)I2
C)I2:PVP
D)PVP
E)LiI
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71
A patient is injected with a 5.0 μ\mu M solution of gallium citrate containing radioactive gallium-68 for a PET study. The half-life of gallium-68 is 9.4 hr. How long does it take for the activity of this isotope to drop to 1% of its initial value?

A)18 hr
B)25 hr
C)32 hr
D)41 hr
E)62 hr
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72
The release of radioactive cesium-137 into the environment by the nuclear accident at Chernobyl produced a health hazard because cesium ions can substitute for ________ in plants, making them unsafe for human consumption.

A)Mg2+
B)K+
C)Ca2+
D)Li+
E)H+
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73
The isotope 18F is used in a range of radio imaging applications. It has a first-order rate constant, k, of 6.30 ×\times 10-3 min-1. What is the half-life for 18F?

A)159 min
B)110 min
C)9.10 ×\times 10-3 min
D)2.34 ×\times 10-3 min
E)1,743 min
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74
Hearing aid batteries utilize a zinc/air electrochemical cell. The reduction half-reactions and standard reduction potentials for this cell are given below. Write the balanced reaction equation for the cell and report the sum of the stoichiometric coefficients.
<strong>Hearing aid batteries utilize a zinc/air electrochemical cell. The reduction half-reactions and standard reduction potentials for this cell are given below. Write the balanced reaction equation for the cell and report the sum of the stoichiometric coefficients. ~~~~~~~~ -1.249 V ~~~~~~~~ +0.401 V</strong> A)4 B)5 C)6 D)7 E)8         ~~~~~~~~ -1.249 V <strong>Hearing aid batteries utilize a zinc/air electrochemical cell. The reduction half-reactions and standard reduction potentials for this cell are given below. Write the balanced reaction equation for the cell and report the sum of the stoichiometric coefficients. ~~~~~~~~ -1.249 V ~~~~~~~~ +0.401 V</strong> A)4 B)5 C)6 D)7 E)8         ~~~~~~~~ +0.401 V

A)4
B)5
C)6
D)7
E)8
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75
The isotope 201Th is used in the diagnosis of heart disease. It has a first-order rate constant, k, of 9.49 ×\times 10-3 h-1. What is the half-life for 201Th?

A)73 hr
B)0.014 hr
C)9.49 ×\times 10-3 hr
D)7.3 hr
E)1.4 hr
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76
A radioactive isotope that emits the shortest range particles and therefore would be a good choice for implantation therapy most likely decays via ________

A)alpha particles.
B)beta particles.
C)positrons.
D)gamma rays.
E)X-rays.
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77
The essential elements found in the human body are classified as major, trace, and ultratrace based on their concentration levels. What are the concentration ranges that define each of these classifications?
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78
Hearing aid batteries utilize a zinc/air electrochemical cell. The reduction half-reactions and standard reduction potentials for this cell are given below. What is the standard cell potential of a zinc/air cell? <strong>Hearing aid batteries utilize a zinc/air electrochemical cell. The reduction half-reactions and standard reduction potentials for this cell are given below. What is the standard cell potential of a zinc/air cell? ~~~~~~~~ -1.249 V ~~~~~~~~ +0.401 V</strong> A)(-0.848 V) B)(+1.500 V) C)(+0.848 V) D)(+1.650 V) E)(-1.650 V)         ~~~~~~~~ -1.249 V <strong>Hearing aid batteries utilize a zinc/air electrochemical cell. The reduction half-reactions and standard reduction potentials for this cell are given below. What is the standard cell potential of a zinc/air cell? ~~~~~~~~ -1.249 V ~~~~~~~~ +0.401 V</strong> A)(-0.848 V) B)(+1.500 V) C)(+0.848 V) D)(+1.650 V) E)(-1.650 V)         ~~~~~~~~ +0.401 V

A)(-0.848 V)
B)(+1.500 V)
C)(+0.848 V)
D)(+1.650 V)
E)(-1.650 V)
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79
A patient is injected with a 5.0 μ\mu M solution of gallium citrate containing radioactive gallium-68 for a PET study. The half-life of gallium-68 is 9.4 hr. How long does it take for the activity of this isotope to drop to 1% of its initial value?

A)18 hr
B)25 hr
C)32 hr
D)41 hr
E)62 hr
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80
Calcium is a major essential element in the human body. What is the dominant role played by calcium?
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