Answers Included
7v7y
1) A 7v7ycommunity 7v7yis 7v7ycomposed 7v7yof 7v7ydifferent 7v7ypopulations 7v7yof 7v7yanimals 7v7yand 7v7yplants.
⊚ 7 v 7 y true
Test Bank for Biology, 6th Edition by Robert Brooker, Eric Widmaier, Linda
Graham
✅
Chap 7v01 7v6e 7vBrooker
⊚ 7 v 7 y false
2) All 7v7ytissues 7v7yare 7v7ycomposed 7v7yof 7v7ycells.
⊚ 7 v 7 y true
⊚ 7 v 7 y false
3) A 7v7yflowerxon 7v7ya 7v7yplant 7v7yrepresents 7v7ywhich 7v7ylevel 7v7yof 7v7yorganization?
A) atom
B) cell
C) organ
D) organism
E) population
4) Boa 7v7yconstrictors 7v7yon 7v7yan 7v7yisland 7v7yare 7v7yan 7v7yexample 7v7yof 7v7ya(n)
A) cell.
B) organ.
C) organism.
D) population.
E) ecosystem.
5) Molecules 7v7yare 7v7ymade 7v7yup 7v7yof
A) atoms.
B) cells.
C) organs.
D) organisms.
E) populations.
1
,6) Which 7v7yis 7v7ythe 7v7ysmallest 7v7yof 7v7yall 7v7ylevels 7v7yof 7v7yorganization?
A) atom
B) cell
C) organ
D) organism
E) population
7) A 7v7ycommunity 7v7yof 7v7yorganisms 7v7yinteracting 7v7ywith 7v7ytheirxphysical 7v7yenvironment 7v7yis 7v7ya(n)
A) population.
B) organism.
C) biosphere.
D) ecosystem.
E) macromolecular 7v7ycommunity.
8) In 7v7ymulticellular 7v7yorganisms, 7v7ycells 7v7yof 7v7ythe 7v7ysame 7v7ytype 7v7ycan 7v7yassociate 7v7ywith 7v7yeach
otherxto 7v7yform
7v7y
A) atoms.
B) molecules.
C) macromolecules.
D) tissues.
E) populations.
9) Which 7v7ylevel 7v7yof 7v7yorganization 7v7yis 7v7ypresent 7v7yin 7v7yall 7v7ylife 7v7yforms?
A) cell
B) tissue
C) organ
D) organelle
E) colony
10) Which 7v7ylevel 7v7yof 7v7yorganization 7v7yincludes 7v7yall 7v7yof 7v7ythe 7v7yothers 7v7yin 7v7ythe 7v7ylist?
A) cell
B) tissue
C) organ
D) organism
E) population
2
,11) During 7v7yphotosynthesis, 7v7yplants 7v7ytake 7v7yin 7v7ywater 7v7yand 7v7ycarbon 7v7ydioxide 7v7yfrom 7v7ythe
7v7yenvironment 7v7yand 7v7yuse 7v7ysunlight 7v7yto 7v7yfuel 7v7ya 7v7yseries 7v7yof 7v7ychemical 7v7yreactions
7v7ythat 7v7yultimately 7v7ybuild 7v7ysmall 7v7ysugar 7v7ymolecules. 7v7yW 7v7yhich 7v7yof 7v7ythe 7v7ycore
7v7yconcepts 7v7yof 7v7ybiology 7v7yis 7v7yexemplified 7v7yby 7v7yphotosynthesis?
A) Evolution
B) Structure 7v7yand 7v7yfunction
C) Information 7v7yflow, 7v7yexchange, 7v7yand 7v7ystorage
D) Pathways 7v7yand 7v7ytransformations 7v7yof 7v7yenergy 7v7yand 7v7ymatter
E) Systems
12) The 7v7yphenomenon 7v7ythrough 7v7ywhich 7v7ypopulations 7v7yof 7v7yorganisms 7v7ychange 7v7yover
time 7v7ydue 7v7yto 7v7ymutation, 7v7ynatural 7v7yselection, 7v7yand 7v7ygenetic 7v7yexchange 7v7yis
7v7y
A) homeostasis.
B) growth 7v7yand 7v7ydevelopment.
C) reproduction.
D) biological 7v7yevolution.
E) organization.
13) The 7v7yprotein 7v7yelastin 7v7yplays 7v7yan 7v7yimportant 7v7yrole 7v7yin 7v7yproviding 7v7yelasticity 7v7yand
7v7yresilience 7v7yto 7v7ymany 7v7ytiss 7v7yues 7v7yin 7v7ythe 7v7ybody. 7v7yElastin 7v7yhas 7v7yelastic
7v7yproperties 7v7ybecause 7v7yof 7v7ythe 7v7yway 7v7ythe 7v7yprotein 7v7ycan 7v7ychange 7v7yshap
e. 7v7yIn 7v7ya 7v7yrelaxed 7v7ycondition, 7v7ythe 7v7yprotein 7v7yhas 7v7yan 7v7yoverall 7v7ycoiled, 7v7yor
7v7ylooped 7v7yshape. 7v7yWhen 7v7ystretched, 7v7ythe 7v7yprotein 7v7yextends 7v7yinto 7v7ya 7v7ystraighter,
7v7ymore 7v7ylinear 7v7yform. 7v7yWhen 7v7ythe 7v7ystretching 7v7yforce 7v7yisremoved, 7v7yelastin 7v7yrecoils
7v7yback 7v7yinto 7v7ythe 7v7yrelaxed 7v7yform. 7v7yWhich 7v7ycore 7v7yconcept 7v7yof 7v7ybiology 7v7ydoes 7v7ythe
7v7yelastin 7v7ypro 7v7ytein 7v7yexemplify?
A) Evolution
B) Structure 7v7yand 7v7yfunction
C) Information 7v7yflow, 7v7yexchange, 7v7yand 7v7ystorage
D) Pathways 7v7yand 7v7ytransformations 7v7yof 7v7yenergy 7v7yand 7v7ymatter
E) Systems
14) Children 7v7yoften 7v7yresemble 7v7ytheir 7v7yparents. 7v7yThe 7v7ytransmission 7v7yof 7v7yan 7v7yeye 7v7ycolor
7v7ygene 7v7yfrom 7v7yparent 7v7yto 7v7ychild 7v7yis 7v7yan 7v7yexample 7v7yof 7v7ywhich 7v7ycore 7v7yconcept
7v7yof 7v7ybiology?
A) Evolution
B) Structure 7v7yand 7v7yfunction
C) Information 7v7yflow, 7v7yexchange, 7v7yand 7v7ystorage
D) Pathways 7v7yand 7v7ytransformations 7v7yof 7v7yenergy 7v7yand 7v7ymatter
E) Systems
3
, 15) Vertical 7v7yevolution, 7v7ywhereby 7v7yliving 7v7yorganisms 7v7yevolve 7v7yfrom 7v7ya 7v7ycommon
7v7yancestor 7v7y("tree 7v7yof 7v7ylife"), 7v7yis 7v7ythe 7v7yonly 7v7ymechanism 7v7yof 7v7yevolution 7v7yon
7v7yEarth.
⊚ 7 v 7 y true
⊚ 7 v 7 y false
16) All 7v7ygenetic 7v7ymutations 7v7yare 7v7yharmful 7v7yto 7v7yan 7v7yorganism.
⊚ 7 v 7 y true
⊚ 7 v 7 y false
17) In 7v7ythe 7v7yprocess 7v7yof 7v7ybiological 7v7yevolution, 7v7ynew 7v7yspecies 7v7ymay 7v7yevolve
through 7v7yexchange 7v7yof 7v7ygenes 7v7yfrom 7v7yone 7v7yspecies 7v7yto 7v7yanother. 7v7yThis
7v7y
7v7yprocess 7v7yis 7v7ycalled
A) proteome 7v7ytransfer.
B) horizontal 7v7ygene 7v7ytransfer.
C) vertical 7v7yevolution.
D) vertical 7v7ydescent 7v7ywith 7v7ymutation.
E) genomic 7v7ysciences.
18) How 7v7ydoes 7v7yevolutionary 7v7ychange 7v7yoccur?
A) Through 7v7ythe 7v7ymodification 7v7yof 7v7ycharacteristics 7v7yin 7v7ya 7v7ypreexisting 7v7ypopulation.
B) It 7v7ymay 7v7yinvolve 7v7yvertical 7v7ydescent 7v7ywith 7v7ymutation.
C) It 7v7ymay 7v7yinvolve 7v7yhorizontal 7v7ygene 7v7ytransfer.
D) All 7v7yof 7v7ythese 7v7ychoices 7v7yare 7v7ycorrect.
E) None 7v7yof 7v7ythese 7v7ychoices 7v7yare 7v7ycorrect.
19) A variety 7v7yof 7v7yfinch 7v7yspecies 7v7ywithin 7v7ythe 7v7yHawaiian 7v7yIslands 7v7yhave 7v7yacquired
7v7y
7v7ydifferent 7v7ytypes 7v7yof 7v7ybeaks 7v7yneeded 7v7yfor 7v7yutilizing 7v7yspecific 7v7yfood 7v7yresources.
7v7yWhat 7v7yis 7v7ythe 7v7ylikely 7v7yprocess 7v7yby 7v7ywhich 7v7ythese 7v7ydiffer 7v7yent 7v7yspecies 7v7yof
7v7yfinches 7v7ycame 7v7yabout?
A) vertical 7v7ydescent 7v7ywith 7v7ymutation
B) horizontal 7v7ygene 7v7ytransfer
C) an 7v7yaccumulation 7v7yof 7v7yharmful 7v7ygenetic 7v7ymutations
4
7v7y
1) A 7v7ycommunity 7v7yis 7v7ycomposed 7v7yof 7v7ydifferent 7v7ypopulations 7v7yof 7v7yanimals 7v7yand 7v7yplants.
⊚ 7 v 7 y true
Test Bank for Biology, 6th Edition by Robert Brooker, Eric Widmaier, Linda
Graham
✅
Chap 7v01 7v6e 7vBrooker
⊚ 7 v 7 y false
2) All 7v7ytissues 7v7yare 7v7ycomposed 7v7yof 7v7ycells.
⊚ 7 v 7 y true
⊚ 7 v 7 y false
3) A 7v7yflowerxon 7v7ya 7v7yplant 7v7yrepresents 7v7ywhich 7v7ylevel 7v7yof 7v7yorganization?
A) atom
B) cell
C) organ
D) organism
E) population
4) Boa 7v7yconstrictors 7v7yon 7v7yan 7v7yisland 7v7yare 7v7yan 7v7yexample 7v7yof 7v7ya(n)
A) cell.
B) organ.
C) organism.
D) population.
E) ecosystem.
5) Molecules 7v7yare 7v7ymade 7v7yup 7v7yof
A) atoms.
B) cells.
C) organs.
D) organisms.
E) populations.
1
,6) Which 7v7yis 7v7ythe 7v7ysmallest 7v7yof 7v7yall 7v7ylevels 7v7yof 7v7yorganization?
A) atom
B) cell
C) organ
D) organism
E) population
7) A 7v7ycommunity 7v7yof 7v7yorganisms 7v7yinteracting 7v7ywith 7v7ytheirxphysical 7v7yenvironment 7v7yis 7v7ya(n)
A) population.
B) organism.
C) biosphere.
D) ecosystem.
E) macromolecular 7v7ycommunity.
8) In 7v7ymulticellular 7v7yorganisms, 7v7ycells 7v7yof 7v7ythe 7v7ysame 7v7ytype 7v7ycan 7v7yassociate 7v7ywith 7v7yeach
otherxto 7v7yform
7v7y
A) atoms.
B) molecules.
C) macromolecules.
D) tissues.
E) populations.
9) Which 7v7ylevel 7v7yof 7v7yorganization 7v7yis 7v7ypresent 7v7yin 7v7yall 7v7ylife 7v7yforms?
A) cell
B) tissue
C) organ
D) organelle
E) colony
10) Which 7v7ylevel 7v7yof 7v7yorganization 7v7yincludes 7v7yall 7v7yof 7v7ythe 7v7yothers 7v7yin 7v7ythe 7v7ylist?
A) cell
B) tissue
C) organ
D) organism
E) population
2
,11) During 7v7yphotosynthesis, 7v7yplants 7v7ytake 7v7yin 7v7ywater 7v7yand 7v7ycarbon 7v7ydioxide 7v7yfrom 7v7ythe
7v7yenvironment 7v7yand 7v7yuse 7v7ysunlight 7v7yto 7v7yfuel 7v7ya 7v7yseries 7v7yof 7v7ychemical 7v7yreactions
7v7ythat 7v7yultimately 7v7ybuild 7v7ysmall 7v7ysugar 7v7ymolecules. 7v7yW 7v7yhich 7v7yof 7v7ythe 7v7ycore
7v7yconcepts 7v7yof 7v7ybiology 7v7yis 7v7yexemplified 7v7yby 7v7yphotosynthesis?
A) Evolution
B) Structure 7v7yand 7v7yfunction
C) Information 7v7yflow, 7v7yexchange, 7v7yand 7v7ystorage
D) Pathways 7v7yand 7v7ytransformations 7v7yof 7v7yenergy 7v7yand 7v7ymatter
E) Systems
12) The 7v7yphenomenon 7v7ythrough 7v7ywhich 7v7ypopulations 7v7yof 7v7yorganisms 7v7ychange 7v7yover
time 7v7ydue 7v7yto 7v7ymutation, 7v7ynatural 7v7yselection, 7v7yand 7v7ygenetic 7v7yexchange 7v7yis
7v7y
A) homeostasis.
B) growth 7v7yand 7v7ydevelopment.
C) reproduction.
D) biological 7v7yevolution.
E) organization.
13) The 7v7yprotein 7v7yelastin 7v7yplays 7v7yan 7v7yimportant 7v7yrole 7v7yin 7v7yproviding 7v7yelasticity 7v7yand
7v7yresilience 7v7yto 7v7ymany 7v7ytiss 7v7yues 7v7yin 7v7ythe 7v7ybody. 7v7yElastin 7v7yhas 7v7yelastic
7v7yproperties 7v7ybecause 7v7yof 7v7ythe 7v7yway 7v7ythe 7v7yprotein 7v7ycan 7v7ychange 7v7yshap
e. 7v7yIn 7v7ya 7v7yrelaxed 7v7ycondition, 7v7ythe 7v7yprotein 7v7yhas 7v7yan 7v7yoverall 7v7ycoiled, 7v7yor
7v7ylooped 7v7yshape. 7v7yWhen 7v7ystretched, 7v7ythe 7v7yprotein 7v7yextends 7v7yinto 7v7ya 7v7ystraighter,
7v7ymore 7v7ylinear 7v7yform. 7v7yWhen 7v7ythe 7v7ystretching 7v7yforce 7v7yisremoved, 7v7yelastin 7v7yrecoils
7v7yback 7v7yinto 7v7ythe 7v7yrelaxed 7v7yform. 7v7yWhich 7v7ycore 7v7yconcept 7v7yof 7v7ybiology 7v7ydoes 7v7ythe
7v7yelastin 7v7ypro 7v7ytein 7v7yexemplify?
A) Evolution
B) Structure 7v7yand 7v7yfunction
C) Information 7v7yflow, 7v7yexchange, 7v7yand 7v7ystorage
D) Pathways 7v7yand 7v7ytransformations 7v7yof 7v7yenergy 7v7yand 7v7ymatter
E) Systems
14) Children 7v7yoften 7v7yresemble 7v7ytheir 7v7yparents. 7v7yThe 7v7ytransmission 7v7yof 7v7yan 7v7yeye 7v7ycolor
7v7ygene 7v7yfrom 7v7yparent 7v7yto 7v7ychild 7v7yis 7v7yan 7v7yexample 7v7yof 7v7ywhich 7v7ycore 7v7yconcept
7v7yof 7v7ybiology?
A) Evolution
B) Structure 7v7yand 7v7yfunction
C) Information 7v7yflow, 7v7yexchange, 7v7yand 7v7ystorage
D) Pathways 7v7yand 7v7ytransformations 7v7yof 7v7yenergy 7v7yand 7v7ymatter
E) Systems
3
, 15) Vertical 7v7yevolution, 7v7ywhereby 7v7yliving 7v7yorganisms 7v7yevolve 7v7yfrom 7v7ya 7v7ycommon
7v7yancestor 7v7y("tree 7v7yof 7v7ylife"), 7v7yis 7v7ythe 7v7yonly 7v7ymechanism 7v7yof 7v7yevolution 7v7yon
7v7yEarth.
⊚ 7 v 7 y true
⊚ 7 v 7 y false
16) All 7v7ygenetic 7v7ymutations 7v7yare 7v7yharmful 7v7yto 7v7yan 7v7yorganism.
⊚ 7 v 7 y true
⊚ 7 v 7 y false
17) In 7v7ythe 7v7yprocess 7v7yof 7v7ybiological 7v7yevolution, 7v7ynew 7v7yspecies 7v7ymay 7v7yevolve
through 7v7yexchange 7v7yof 7v7ygenes 7v7yfrom 7v7yone 7v7yspecies 7v7yto 7v7yanother. 7v7yThis
7v7y
7v7yprocess 7v7yis 7v7ycalled
A) proteome 7v7ytransfer.
B) horizontal 7v7ygene 7v7ytransfer.
C) vertical 7v7yevolution.
D) vertical 7v7ydescent 7v7ywith 7v7ymutation.
E) genomic 7v7ysciences.
18) How 7v7ydoes 7v7yevolutionary 7v7ychange 7v7yoccur?
A) Through 7v7ythe 7v7ymodification 7v7yof 7v7ycharacteristics 7v7yin 7v7ya 7v7ypreexisting 7v7ypopulation.
B) It 7v7ymay 7v7yinvolve 7v7yvertical 7v7ydescent 7v7ywith 7v7ymutation.
C) It 7v7ymay 7v7yinvolve 7v7yhorizontal 7v7ygene 7v7ytransfer.
D) All 7v7yof 7v7ythese 7v7ychoices 7v7yare 7v7ycorrect.
E) None 7v7yof 7v7ythese 7v7ychoices 7v7yare 7v7ycorrect.
19) A variety 7v7yof 7v7yfinch 7v7yspecies 7v7ywithin 7v7ythe 7v7yHawaiian 7v7yIslands 7v7yhave 7v7yacquired
7v7y
7v7ydifferent 7v7ytypes 7v7yof 7v7ybeaks 7v7yneeded 7v7yfor 7v7yutilizing 7v7yspecific 7v7yfood 7v7yresources.
7v7yWhat 7v7yis 7v7ythe 7v7ylikely 7v7yprocess 7v7yby 7v7ywhich 7v7ythese 7v7ydiffer 7v7yent 7v7yspecies 7v7yof
7v7yfinches 7v7ycame 7v7yabout?
A) vertical 7v7ydescent 7v7ywith 7v7ymutation
B) horizontal 7v7ygene 7v7ytransfer
C) an 7v7yaccumulation 7v7yof 7v7yharmful 7v7ygenetic 7v7ymutations
4