Test Bank for Becker's World of the Cell, 10th Edition by Jeff Hardin ||All Chapters 1-26 included with questions and answers||Latest updated version

1. Test Bank for Becker's World of the Cell, 10th ck QM QM
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1) Robert QMHooke QMcoined QMthe QMterm QMcell QMwhen QMstudying QMthin QMslices QMof QMcork. QMThese
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wereQMthe QMfirst QMcells QMobserved QMbecause
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A) dead QMplant QMcells; QMthe QMthick QMcells QMwalls QMdid QMnot QMrequire QMhigh QMresolution QMor QMmagnification
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to QMview
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B) dead QManimal QMcells; QMthey QMwere QMimmobile QMand QMdid QMnot QMneed QMto QMbe QMfixed QMbefore QMviewing
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C) compartments; QMthey QMwere QMactually QMthe QMresult QMof QMmultiple QMcells QMthat QMhad ck ck ck ck ck ck ck ck ck ck




QMmerged QMand QMdied QMtoQ
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D) immune QMcells; QMthey QMproduce QMantibodies QMthat QMembed QMin QMthe QMcell QMmembrane QMto QMmake QMit
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QMvisible
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QMmost QMplant QMcellsQ
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Chapter QMSection: Q M 1.1 ck c k




Bloom's QMTaxonomy: ck




QM Remembering/UnderstandingQ
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QMOutcome: Q M 1.1
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Global QMLO: Q M G1 ck c k




QMV&C QMLO: QMVC-SF
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2) The QMLatin QMphrase QMomnis QMcellula QMe QMcellula QMrefers QMto QMa QMcellular QMprinciple. QMWhich
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B) Cells QMgenerally QMare QMfound QMin QMclusters. ck ck ck ck ck




C) All QMcells QMarise QMonly QMfrom QMpreexisting QMcells.
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D) Organs QMare QMcomposed QMof QMtissues QMand QMcells. ck ck ck ck ck ck




E) The QMcell QMis QMthe QMbasic QMunit QMof
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QMstructure.Q
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Chapter QMSection: QM QM QM 1.1 ck ck ck ck




Bloom's QMTaxonomy: ck




QM Remembering/UnderstandingQ
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QMOutcome: Q M 1.1
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Global QMLO: Q M G7 ck c k




QMV&C QMLO: QMVC-SF
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A) Theodor QMSchwann; QMthe QMinternal QMstructures QMof QMcells, QMsuch QMas QMribosomes,
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QMnuclei, QMand QMGolgiQ
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B) Robert QMHooke; QMbacteria QMand QMviruses ck ck ck ck




C) Antonie QMvan QMLeeuwenhoek; QMsperm QMcells, QMbacteria, QMalgae, QMand QMother QMprotists
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D) Robert QMBrown; QMcell QMstructures QMusing QMfluorescent QMantibodies
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E) Rudolf QMVirchow; QMcollagen QMand QMmuscle ck ck ck ck




QMcellsQ
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Chapter QMSection: Q M 1.1 ck c k




Bloom's QMTaxonomy: ck




QM Remembering/UnderstandingQ
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QMOutcome: Q M 1.2
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Global QMLO: Q M G1 ck c k




QMV&C QMLO: QMVC-S
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4) Which QMorganelle QMstores QMmost QMof QMthe QMDNA QMin QMplant QMand QManimal QMcells?
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A) Golgi QMcomplex ck




B) Mitochondrion
C) Chloroplast
D) Nucleus
E) Lysosom
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QM D
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Chapter QMSection: Q M 1.2 ck c k




Bloom's QMTaxonomy: ck




QM Remembering/UnderstandingQ
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QMOutcome: Q M 1.2
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Global QMLO: Q M G1 ck c k




QMV&C QMLO: QMVC-E
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5) Which QMof QMthe QMfollowing QMstatements QMis QMfalse?
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A) All QMorganisms QMconsist QMof QMone QMor QMmore QMcells.
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B) All QMcells QMarise QMfrom QMpreexisting QMcells.
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C) The QMcell QMis QMthe QMbasic QMunit QMof QMstructure QMfor QMall QMorganisms.
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D) All QMcells QMhave QMa QMmembrane-bound QMnucleus.
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E) Cells QMcome QMin QMa QMwide QMvariety QMof QMsizes
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ckand QMshapes.QMAnswer: Q M D
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Chapter QMSection: Q M 1.2 ck c k




Bloom's QMTaxonomy: ck




QM Applying/AnalyzingQ
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QMOutcome: Q M 1.1
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Global QMLO: Q M G7 ck c k




QMV&C QMLO: QMVC-PS
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A) A QMnanometer QMis QMabout QMthe QMsize QMof QMa QMcommon QMbacterial QMcell.
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B) A QMnanometer QMis QMone QMmillionth QMof QMa QMmeter.
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C) A QMnanometer QMis QMequivalent QMto QM10 QMAngstroms QM(Å).
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D) The QMnanometer QMis QMthe QMmost QMcommon QMmeasurement QMused QMin QMmeasuring QMwhole QMcells.
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E) None QMof QMthe ck ck




ckabove.QMAnswer: Q M C
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Chapter QMSection: Q M 1.2 ck c k




Bloom's QMTaxonomy: ck




QM Remembering/UnderstandingQ
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QMOutcome: Q M 1.2
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Global QMLO: Q M G4 ck c k




QMV&C QMLO: QMVC-PS
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7) Which QMof QMthe QMfollowing QMis QMclosest QMto QMa QMmicrometer QMin QMsize?
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A) The QMwidth QMof QMa QMstrand QMof QMDNA
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B) The QMlength QMof QMa QMplant QMcell
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C) The QMlength QMof QMa QMchicken QMegg
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D) A QMtypical QMprokaryotic QMcell
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E) The QMsize QMof QMack ck ck




ckribosomeQMAnswer: Q M D
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Chapter QMSection: QM QM QM 1.2 ck ck ck ck




Bloom's QMTaxonomy: ck




QM Applying/AnalyzingQ
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QMOutcome: Q M 1.2
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Global QMLO: Q M G4 ck c k




QMV&C QMLO: QMVC-PS
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8) Cell QMbiology QMemerged QMfrom QMwhich QMof QMthe QMfollowing QMfields QMof QMbiology?
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A) Biochemistry
B) Cytology
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E) Cytology QMand ck




ckbiochemistryQMAnswer: Q M D
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Chapter QMSection: Q M 1.2 ck c k




Bloom's QMTaxonomy: ck




QM Remembering/UnderstandingQ
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QMOutcome: Q M 1.1
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Global QMLO: Q M G1 ck c k




QMV&C QMLO: QMVC-E
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3

, 9) Which QMof QMthe QMfollowing QMis QMsmallest? ck ck ck ck ck




A) Ribosome
B) Virus
C) Protein
D) Mitochondrion
E) Prokaryot
eQMAnswer: Q M C
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Chapter QMSection: Q M 1.2 ck c k




Bloom's QMTaxonomy: ck




QM Applying/AnalyzingQ
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QMOutcome: Q M 1.2
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Global QMLO: Q M G4 ck c k




QMV&C QMLO: QMVC-SF
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10) Early QMmicroscopes QMdid QMnot QMallow QMclear QMvisualization QMof QMcells QMbecause QMthey QMwere QMlimited
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ck QM by
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B) number QMof QMkernels. ck ck




C) resolution.
D) refraction.
E) both QMmagnification QMand ck ck




ckresolution.QMAnswer: Q M E
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Chapter QMSection: Q M 1.1 ck c k




Bloom's QMTaxonomy: ck




QM Remembering/UnderstandingQ
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QMOutcome: Q M 1.2
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Global QMLO: Q M G4 ck c k




QMV&C QMLO: QMVC-SF
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11) You QMare QMworking QMon QMa QMproject QMthat QMinvolves QMthe QMdirect QMobservation QMof QMDNA
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ckmolecules. QMTheQMmicroscope QMthat QMwould QMgive QMyou QMthe QMbest QMinformation QMat QMthis
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QMtime QMwould QMbe QMthe
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A) light QMmicroscope. ck




B) phase-contrast QMmicroscope. ck




C) transmission QMelectron QMmicroscope. ck ck




D) digital QMvideo QMmicroscope. ck ck




E) fluorescent
QMmicroscope.Q
ck Answer: Q M C
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Chapter QMSection: Q M 1.2 ck c k




Bloom's QMTaxonomy: ck




QM Applying/AnalyzingQ
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QMOutcome: Q M 1.2
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Global QMLO: Q M G4 ck c k




QMV&C QMLO: QMVC-PS
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