TEST BANK
Clinical Chemistry: Principles, Techniques, and Correlations
Michael L. Bishop, Edward P. Fody, Carleen Van Siclen & James March Mistler
9TH Edition
TEST BANK
,Clinical Chemistry: Principles, Techniques, and Correlations, Ninth Edition
Test bank
Import Settings:
Base Settings: Brownstone Default
Information Field: Complexity
Information Field: Ahead
Information Field: Subject
Information Field: Title
Highest Answer Letter: D
Multiple Keywords in Same Paragraph: No
NAS ISBN13: 9781284238884, add to Ahead, Title tags
Chapter: Chapter 01 – Test Bank
Multiple Choice
1. One nanogram is equivalent to how many grams?
A) 10-6
B) 10-9
C) 10-12
D) 10-15
Ans: B
Complexity: RL2
Ahead: Units of Measure
Subject: Chapter 1
Title: Basic Principles and Practices of Clinical Chemistry
2. How many milliliters of 0.5N NaOH are required to make 100 milliliters of 0.2N NaOH?
A) 250
B) 40
C) 25
D) 4
Ans: B
Complexity: RL2
Ahead: Laboratory Mathematics and Calculations
Subject: Chapter 1
Title: Basic Principles and Practices of Clinical Chemistry
3. A patient sample for uric acid gave an absorbance reading of 0.4, and the 50 mg/dL standard gave an
absorbance reading of 0.1. What is the concentration of uric acid in the patient's sample in grams per
deciliter?
A) 0.2
B) 12.5
C) 125
D) 200
Ans: D
Complexity: RL2
Ahead: Laboratory Mathematics and Calculations
© Jones & Bartlett Learning, LLC, an Ascend Learning Company 1-1
,Clinical Chemistry: Principles, Techniques, and Correlations, Ninth Edition
Test bank
Subject: Chapter 1
Title: Basic Principles and Practices of Clinical Chemistry
4. How many millimoles of NaCl are contained in 300 mL of a 4M solution? (gmw = 58.5)
A) 70
B) 120
C) 234
D) 1200
Ans: D
Complexity: RL2
Ahead: Laboratory Mathematics and Calculations
Subject: Chapter 1
Title: Basic Principles and Practices of Clinical Chemistry
5. How is 10 mg/dL of calcium reported in mmol/L? (gmw = 40)
A) 2.5
B) 5.0
C) 10
D) 25
Ans: A
Complexity: RL2
Ahead: Laboratory Mathematics and Calculations
Subject: Chapter 1
Title: Basic Principles and Practices of Clinical Chemistry
6. How many milliliters of concentrated sulfuric acid (H2S04), G.M.W. = 98 grams, specific gravity = 1.500,
purity = 80%, are needed to make 400 mL of a 2N solution?
A) 26.1
B) 32.7
C) 52.3
D) 65.3
Ans: B
Complexity: RL2
Ahead: Laboratory Mathematics and Calculations
Subject: Chapter 1
Title: Basic Principles and Practices of Clinical Chemistry
7. How many grams of hydrated MgSO4 5 H20 (M.W.: MgSO4 = 119, H20 = 18) are required to make a
10% solution of MgS04?
A) 5.7 g/dL
B) 11.9 g/dL
C) 17.6 g/dL
D) 20.9 g/dL
Ans: C
Complexity: RL2
Ahead: Laboratory Mathematics and Calculations
Subject: Chapter 1
Title: Basic Principles and Practices of Clinical Chemistry
© Jones & Bartlett Learning, LLC, an Ascend Learning Company 1-2
, Clinical Chemistry: Principles, Techniques, and Correlations, Ninth Edition
Test bank
8. What dis dthe dmolarity d(M) dof da d4% dsolution dof dsodium dhydroxide d(NaOH)? dM.W: dNa d= d23, dO d=
d16, dH d= d1.
A) 0.1M
B) 0.25M
C) 1.0M
D) 2.5M
Ans: dC
dComplexity:
dRL2
Ahead: dLaboratory dMathematics dand
dCalculations dSubject: dChapter d1
Title: dBasic dPrinciples dand dPractices dof dClinical dChemistry
9. 3 dmg/dL dis dequivalent dto dhow dmany dgrams dper dliter?
A) 0.003
B) 0.03
C) 0.3
D) 3
Ans: dB
dComplexity:
dRL2
Ahead: dUnits dof dMeasure
dSubject: dChapter d1
Title: dBasic dPrinciples dand dPractices dof dClinical dChemistry
10. What dis dthe dnormality dof da dsolution dcontaining d4.5 dgrams dof dBaCl2 din d400 dmL? d(gmw d= d208)
A) 1.10
B) 0.50
C) 0.25
D) 0.11
Ans: dD
dComplexity:
dRL2
Ahead: dLaboratory dMathematics dand
dCalculations dSubject: dChapter d1
Title: dBasic dPrinciples dand dPractices dof dClinical dChemistry
11. What dare dthe doptimal dconditions dfor dspecimen dtransport, dhandling, dand dstorage dof
dspecimens dfor dclinical dchemistry dtesting?
A) Specimen dtransported dto dlab dwithin d2 dhours dafter dcollection, dstored dat droom
dtemperature, dand dcentrifuged dwithin d4 dhours.
B) Specimen dtransported dto dlab dimmediately, dpermitted dto dclot, dserum dseparated dand dtested
das dsoon das dpossible.
C) Specimen dbrought dto dlab dimmediately, dspun ddown, dand dserum dleft dto dstand don dclot duntil dtested.
D) None dof dthese drepresent doptimal
dconditions. dAns: dB
Complexity: dRL1
Ahead: dSpecimen dCollection dand dHandling
dSubject: dChapter d1
Title: dBasic dPrinciples dand dPractices dof dClinical dChemistry
© Jones & Bartlett Learning, LLC, an Ascend Learning Company 1-3
Clinical Chemistry: Principles, Techniques, and Correlations
Michael L. Bishop, Edward P. Fody, Carleen Van Siclen & James March Mistler
9TH Edition
TEST BANK
,Clinical Chemistry: Principles, Techniques, and Correlations, Ninth Edition
Test bank
Import Settings:
Base Settings: Brownstone Default
Information Field: Complexity
Information Field: Ahead
Information Field: Subject
Information Field: Title
Highest Answer Letter: D
Multiple Keywords in Same Paragraph: No
NAS ISBN13: 9781284238884, add to Ahead, Title tags
Chapter: Chapter 01 – Test Bank
Multiple Choice
1. One nanogram is equivalent to how many grams?
A) 10-6
B) 10-9
C) 10-12
D) 10-15
Ans: B
Complexity: RL2
Ahead: Units of Measure
Subject: Chapter 1
Title: Basic Principles and Practices of Clinical Chemistry
2. How many milliliters of 0.5N NaOH are required to make 100 milliliters of 0.2N NaOH?
A) 250
B) 40
C) 25
D) 4
Ans: B
Complexity: RL2
Ahead: Laboratory Mathematics and Calculations
Subject: Chapter 1
Title: Basic Principles and Practices of Clinical Chemistry
3. A patient sample for uric acid gave an absorbance reading of 0.4, and the 50 mg/dL standard gave an
absorbance reading of 0.1. What is the concentration of uric acid in the patient's sample in grams per
deciliter?
A) 0.2
B) 12.5
C) 125
D) 200
Ans: D
Complexity: RL2
Ahead: Laboratory Mathematics and Calculations
© Jones & Bartlett Learning, LLC, an Ascend Learning Company 1-1
,Clinical Chemistry: Principles, Techniques, and Correlations, Ninth Edition
Test bank
Subject: Chapter 1
Title: Basic Principles and Practices of Clinical Chemistry
4. How many millimoles of NaCl are contained in 300 mL of a 4M solution? (gmw = 58.5)
A) 70
B) 120
C) 234
D) 1200
Ans: D
Complexity: RL2
Ahead: Laboratory Mathematics and Calculations
Subject: Chapter 1
Title: Basic Principles and Practices of Clinical Chemistry
5. How is 10 mg/dL of calcium reported in mmol/L? (gmw = 40)
A) 2.5
B) 5.0
C) 10
D) 25
Ans: A
Complexity: RL2
Ahead: Laboratory Mathematics and Calculations
Subject: Chapter 1
Title: Basic Principles and Practices of Clinical Chemistry
6. How many milliliters of concentrated sulfuric acid (H2S04), G.M.W. = 98 grams, specific gravity = 1.500,
purity = 80%, are needed to make 400 mL of a 2N solution?
A) 26.1
B) 32.7
C) 52.3
D) 65.3
Ans: B
Complexity: RL2
Ahead: Laboratory Mathematics and Calculations
Subject: Chapter 1
Title: Basic Principles and Practices of Clinical Chemistry
7. How many grams of hydrated MgSO4 5 H20 (M.W.: MgSO4 = 119, H20 = 18) are required to make a
10% solution of MgS04?
A) 5.7 g/dL
B) 11.9 g/dL
C) 17.6 g/dL
D) 20.9 g/dL
Ans: C
Complexity: RL2
Ahead: Laboratory Mathematics and Calculations
Subject: Chapter 1
Title: Basic Principles and Practices of Clinical Chemistry
© Jones & Bartlett Learning, LLC, an Ascend Learning Company 1-2
, Clinical Chemistry: Principles, Techniques, and Correlations, Ninth Edition
Test bank
8. What dis dthe dmolarity d(M) dof da d4% dsolution dof dsodium dhydroxide d(NaOH)? dM.W: dNa d= d23, dO d=
d16, dH d= d1.
A) 0.1M
B) 0.25M
C) 1.0M
D) 2.5M
Ans: dC
dComplexity:
dRL2
Ahead: dLaboratory dMathematics dand
dCalculations dSubject: dChapter d1
Title: dBasic dPrinciples dand dPractices dof dClinical dChemistry
9. 3 dmg/dL dis dequivalent dto dhow dmany dgrams dper dliter?
A) 0.003
B) 0.03
C) 0.3
D) 3
Ans: dB
dComplexity:
dRL2
Ahead: dUnits dof dMeasure
dSubject: dChapter d1
Title: dBasic dPrinciples dand dPractices dof dClinical dChemistry
10. What dis dthe dnormality dof da dsolution dcontaining d4.5 dgrams dof dBaCl2 din d400 dmL? d(gmw d= d208)
A) 1.10
B) 0.50
C) 0.25
D) 0.11
Ans: dD
dComplexity:
dRL2
Ahead: dLaboratory dMathematics dand
dCalculations dSubject: dChapter d1
Title: dBasic dPrinciples dand dPractices dof dClinical dChemistry
11. What dare dthe doptimal dconditions dfor dspecimen dtransport, dhandling, dand dstorage dof
dspecimens dfor dclinical dchemistry dtesting?
A) Specimen dtransported dto dlab dwithin d2 dhours dafter dcollection, dstored dat droom
dtemperature, dand dcentrifuged dwithin d4 dhours.
B) Specimen dtransported dto dlab dimmediately, dpermitted dto dclot, dserum dseparated dand dtested
das dsoon das dpossible.
C) Specimen dbrought dto dlab dimmediately, dspun ddown, dand dserum dleft dto dstand don dclot duntil dtested.
D) None dof dthese drepresent doptimal
dconditions. dAns: dB
Complexity: dRL1
Ahead: dSpecimen dCollection dand dHandling
dSubject: dChapter d1
Title: dBasic dPrinciples dand dPractices dof dClinical dChemistry
© Jones & Bartlett Learning, LLC, an Ascend Learning Company 1-3
