Answers Included
b67y
1) A b67ycommunity b67yis b67ycomposed b67yof b67ydifferent b67ypopulations b67yof b67yanimals b67yand b67yplants.
⊚ b 6 7 y true
Test Bank for Biology, 6th Edition by Robert Brooker, Eric Widmaier, Linda
Graham
✅
Chap b601 b66e b6Brooker
⊚ b 6 7 y false
2) All b67ytissues b67yare b67ycomposed b67yof b67ycells.
⊚ b 6 7 y true
⊚ b 6 7 y false
3) A b67yflowerxon b67ya b67yplant b67yrepresents b67ywhich b67ylevel b67yof b67yorganization?
A) atom
B) cell
C) organ
D) organism
E) population
4) Boa b67yconstrictors b67yon b67yan b67yisland b67yare b67yan b67yexample b67yof b67ya(n)
A) cell.
B) organ.
C) organism.
D) population.
E) ecosystem.
5) Molecules b67yare b67ymade b67yup b67yof
A) atoms.
B) cells.
C) organs.
D) organisms.
E) populations.
1
,6) Which b67yis b67ythe b67ysmallest b67yof b67yall b67ylevels b67yof b67yorganization?
A) atom
B) cell
C) organ
D) organism
E) population
7) A b67ycommunity b67yof b67yorganisms b67yinteracting b67ywith b67ytheirxphysical b67yenvironment b67yis b67ya(n)
A) population.
B) organism.
C) biosphere.
D) ecosystem.
E) macromolecular b67ycommunity.
8) In b67ymulticellular b67yorganisms, b67ycells b67yof b67ythe b67ysame b67ytype b67ycan b67yassociate b67ywith b67yeach
otherxto b67yform
b67y
A) atoms.
B) molecules.
C) macromolecules.
D) tissues.
E) populations.
9) Which b67ylevel b67yof b67yorganization b67yis b67ypresent b67yin b67yall b67ylife b67yforms?
A) cell
B) tissue
C) organ
D) organelle
E) colony
10) Which b67ylevel b67yof b67yorganization b67yincludes b67yall b67yof b67ythe b67yothers b67yin b67ythe b67ylist?
A) cell
B) tissue
C) organ
D) organism
E) population
2
,11) During b67yphotosynthesis, b67yplants b67ytake b67yin b67ywater b67yand b67ycarbon b67ydioxide b67yfrom b67ythe
b67yenvironment b67yand b67yuse b67ysunlight b67yto b67yfuel b67ya b67yseries b67yof b67ychemical b67yreactions
b67ythat b67yultimately b67ybuild b67ysmall b67ysugar b67ymolecules. b67yW b67yhich b67yof b67ythe b67ycore
b67yconcepts b67yof b67ybiology b67yis b67yexemplified b67yby b67yphotosynthesis?
A) Evolution
B) Structure b67yand b67yfunction
C) Information b67yflow, b67yexchange, b67yand b67ystorage
D) Pathways b67yand b67ytransformations b67yof b67yenergy b67yand b67ymatter
E) Systems
12) The b67yphenomenon b67ythrough b67ywhich b67ypopulations b67yof b67yorganisms b67ychange b67yover
time b67ydue b67yto b67ymutation, b67ynatural b67yselection, b67yand b67ygenetic b67yexchange b67yis
b67y
A) homeostasis.
B) growth b67yand b67ydevelopment.
C) reproduction.
D) biological b67yevolution.
E) organization.
13) The b67yprotein b67yelastin b67yplays b67yan b67yimportant b67yrole b67yin b67yproviding b67yelasticity b67yand
b67yresilience b67yto b67ymany b67ytiss b67yues b67yin b67ythe b67ybody. b67yElastin b67yhas b67yelastic
b67yproperties b67ybecause b67yof b67ythe b67yway b67ythe b67yprotein b67ycan b67ychange b67yshap
e. b67yIn b67ya b67yrelaxed b67ycondition, b67ythe b67yprotein b67yhas b67yan b67yoverall b67ycoiled, b67yor
b67ylooped b67yshape. b67yWhen b67ystretched, b67ythe b67yprotein b67yextends b67yinto b67ya b67ystraighter,
b67ymore b67ylinear b67yform. b67yWhen b67ythe b67ystretching b67yforce b67yisremoved, b67yelastin b67yrecoils
b67yback b67yinto b67ythe b67yrelaxed b67yform. b67yWhich b67ycore b67yconcept b67yof b67ybiology b67ydoes b67ythe
b67yelastin b67ypro b67ytein b67yexemplify?
A) Evolution
B) Structure b67yand b67yfunction
C) Information b67yflow, b67yexchange, b67yand b67ystorage
D) Pathways b67yand b67ytransformations b67yof b67yenergy b67yand b67ymatter
E) Systems
14) Children b67yoften b67yresemble b67ytheir b67yparents. b67yThe b67ytransmission b67yof b67yan b67yeye b67ycolor
b67ygene b67yfrom b67yparent b67yto b67ychild b67yis b67yan b67yexample b67yof b67ywhich b67ycore b67yconcept
b67yof b67ybiology?
A) Evolution
B) Structure b67yand b67yfunction
C) Information b67yflow, b67yexchange, b67yand b67ystorage
D) Pathways b67yand b67ytransformations b67yof b67yenergy b67yand b67ymatter
E) Systems
3
, 15) Vertical b67yevolution, b67ywhereby b67yliving b67yorganisms b67yevolve b67yfrom b67ya b67ycommon
b67yancestor b67y("tree b67yof b67ylife"), b67yis b67ythe b67yonly b67ymechanism b67yof b67yevolution b67yon
b67yEarth.
⊚ b 6 7 y true
⊚ b 6 7 y false
16) All b67ygenetic b67ymutations b67yare b67yharmful b67yto b67yan b67yorganism.
⊚ b 6 7 y true
⊚ b 6 7 y false
17) In b67ythe b67yprocess b67yof b67ybiological b67yevolution, b67ynew b67yspecies b67ymay b67yevolve
through b67yexchange b67yof b67ygenes b67yfrom b67yone b67yspecies b67yto b67yanother. b67yThis
b67y
b67yprocess b67yis b67ycalled
A) proteome b67ytransfer.
B) horizontal b67ygene b67ytransfer.
C) vertical b67yevolution.
D) vertical b67ydescent b67ywith b67ymutation.
E) genomic b67ysciences.
18) How b67ydoes b67yevolutionary b67ychange b67yoccur?
A) Through b67ythe b67ymodification b67yof b67ycharacteristics b67yin b67ya b67ypreexisting b67ypopulation.
B) It b67ymay b67yinvolve b67yvertical b67ydescent b67ywith b67ymutation.
C) It b67ymay b67yinvolve b67yhorizontal b67ygene b67ytransfer.
D) All b67yof b67ythese b67ychoices b67yare b67ycorrect.
E) None b67yof b67ythese b67ychoices b67yare b67ycorrect.
19) A variety b67yof b67yfinch b67yspecies b67ywithin b67ythe b67yHawaiian b67yIslands b67yhave b67yacquired
b67y
b67ydifferent b67ytypes b67yof b67ybeaks b67yneeded b67yfor b67yutilizing b67yspecific b67yfood b67yresources.
b67yWhat b67yis b67ythe b67ylikely b67yprocess b67yby b67ywhich b67ythese b67ydiffer b67yent b67yspecies b67yof
b67yfinches b67ycame b67yabout?
A) vertical b67ydescent b67ywith b67ymutation
B) horizontal b67ygene b67ytransfer
C) an b67yaccumulation b67yof b67yharmful b67ygenetic b67ymutations
4
b67y
1) A b67ycommunity b67yis b67ycomposed b67yof b67ydifferent b67ypopulations b67yof b67yanimals b67yand b67yplants.
⊚ b 6 7 y true
Test Bank for Biology, 6th Edition by Robert Brooker, Eric Widmaier, Linda
Graham
✅
Chap b601 b66e b6Brooker
⊚ b 6 7 y false
2) All b67ytissues b67yare b67ycomposed b67yof b67ycells.
⊚ b 6 7 y true
⊚ b 6 7 y false
3) A b67yflowerxon b67ya b67yplant b67yrepresents b67ywhich b67ylevel b67yof b67yorganization?
A) atom
B) cell
C) organ
D) organism
E) population
4) Boa b67yconstrictors b67yon b67yan b67yisland b67yare b67yan b67yexample b67yof b67ya(n)
A) cell.
B) organ.
C) organism.
D) population.
E) ecosystem.
5) Molecules b67yare b67ymade b67yup b67yof
A) atoms.
B) cells.
C) organs.
D) organisms.
E) populations.
1
,6) Which b67yis b67ythe b67ysmallest b67yof b67yall b67ylevels b67yof b67yorganization?
A) atom
B) cell
C) organ
D) organism
E) population
7) A b67ycommunity b67yof b67yorganisms b67yinteracting b67ywith b67ytheirxphysical b67yenvironment b67yis b67ya(n)
A) population.
B) organism.
C) biosphere.
D) ecosystem.
E) macromolecular b67ycommunity.
8) In b67ymulticellular b67yorganisms, b67ycells b67yof b67ythe b67ysame b67ytype b67ycan b67yassociate b67ywith b67yeach
otherxto b67yform
b67y
A) atoms.
B) molecules.
C) macromolecules.
D) tissues.
E) populations.
9) Which b67ylevel b67yof b67yorganization b67yis b67ypresent b67yin b67yall b67ylife b67yforms?
A) cell
B) tissue
C) organ
D) organelle
E) colony
10) Which b67ylevel b67yof b67yorganization b67yincludes b67yall b67yof b67ythe b67yothers b67yin b67ythe b67ylist?
A) cell
B) tissue
C) organ
D) organism
E) population
2
,11) During b67yphotosynthesis, b67yplants b67ytake b67yin b67ywater b67yand b67ycarbon b67ydioxide b67yfrom b67ythe
b67yenvironment b67yand b67yuse b67ysunlight b67yto b67yfuel b67ya b67yseries b67yof b67ychemical b67yreactions
b67ythat b67yultimately b67ybuild b67ysmall b67ysugar b67ymolecules. b67yW b67yhich b67yof b67ythe b67ycore
b67yconcepts b67yof b67ybiology b67yis b67yexemplified b67yby b67yphotosynthesis?
A) Evolution
B) Structure b67yand b67yfunction
C) Information b67yflow, b67yexchange, b67yand b67ystorage
D) Pathways b67yand b67ytransformations b67yof b67yenergy b67yand b67ymatter
E) Systems
12) The b67yphenomenon b67ythrough b67ywhich b67ypopulations b67yof b67yorganisms b67ychange b67yover
time b67ydue b67yto b67ymutation, b67ynatural b67yselection, b67yand b67ygenetic b67yexchange b67yis
b67y
A) homeostasis.
B) growth b67yand b67ydevelopment.
C) reproduction.
D) biological b67yevolution.
E) organization.
13) The b67yprotein b67yelastin b67yplays b67yan b67yimportant b67yrole b67yin b67yproviding b67yelasticity b67yand
b67yresilience b67yto b67ymany b67ytiss b67yues b67yin b67ythe b67ybody. b67yElastin b67yhas b67yelastic
b67yproperties b67ybecause b67yof b67ythe b67yway b67ythe b67yprotein b67ycan b67ychange b67yshap
e. b67yIn b67ya b67yrelaxed b67ycondition, b67ythe b67yprotein b67yhas b67yan b67yoverall b67ycoiled, b67yor
b67ylooped b67yshape. b67yWhen b67ystretched, b67ythe b67yprotein b67yextends b67yinto b67ya b67ystraighter,
b67ymore b67ylinear b67yform. b67yWhen b67ythe b67ystretching b67yforce b67yisremoved, b67yelastin b67yrecoils
b67yback b67yinto b67ythe b67yrelaxed b67yform. b67yWhich b67ycore b67yconcept b67yof b67ybiology b67ydoes b67ythe
b67yelastin b67ypro b67ytein b67yexemplify?
A) Evolution
B) Structure b67yand b67yfunction
C) Information b67yflow, b67yexchange, b67yand b67ystorage
D) Pathways b67yand b67ytransformations b67yof b67yenergy b67yand b67ymatter
E) Systems
14) Children b67yoften b67yresemble b67ytheir b67yparents. b67yThe b67ytransmission b67yof b67yan b67yeye b67ycolor
b67ygene b67yfrom b67yparent b67yto b67ychild b67yis b67yan b67yexample b67yof b67ywhich b67ycore b67yconcept
b67yof b67ybiology?
A) Evolution
B) Structure b67yand b67yfunction
C) Information b67yflow, b67yexchange, b67yand b67ystorage
D) Pathways b67yand b67ytransformations b67yof b67yenergy b67yand b67ymatter
E) Systems
3
, 15) Vertical b67yevolution, b67ywhereby b67yliving b67yorganisms b67yevolve b67yfrom b67ya b67ycommon
b67yancestor b67y("tree b67yof b67ylife"), b67yis b67ythe b67yonly b67ymechanism b67yof b67yevolution b67yon
b67yEarth.
⊚ b 6 7 y true
⊚ b 6 7 y false
16) All b67ygenetic b67ymutations b67yare b67yharmful b67yto b67yan b67yorganism.
⊚ b 6 7 y true
⊚ b 6 7 y false
17) In b67ythe b67yprocess b67yof b67ybiological b67yevolution, b67ynew b67yspecies b67ymay b67yevolve
through b67yexchange b67yof b67ygenes b67yfrom b67yone b67yspecies b67yto b67yanother. b67yThis
b67y
b67yprocess b67yis b67ycalled
A) proteome b67ytransfer.
B) horizontal b67ygene b67ytransfer.
C) vertical b67yevolution.
D) vertical b67ydescent b67ywith b67ymutation.
E) genomic b67ysciences.
18) How b67ydoes b67yevolutionary b67ychange b67yoccur?
A) Through b67ythe b67ymodification b67yof b67ycharacteristics b67yin b67ya b67ypreexisting b67ypopulation.
B) It b67ymay b67yinvolve b67yvertical b67ydescent b67ywith b67ymutation.
C) It b67ymay b67yinvolve b67yhorizontal b67ygene b67ytransfer.
D) All b67yof b67ythese b67ychoices b67yare b67ycorrect.
E) None b67yof b67ythese b67ychoices b67yare b67ycorrect.
19) A variety b67yof b67yfinch b67yspecies b67ywithin b67ythe b67yHawaiian b67yIslands b67yhave b67yacquired
b67y
b67ydifferent b67ytypes b67yof b67ybeaks b67yneeded b67yfor b67yutilizing b67yspecific b67yfood b67yresources.
b67yWhat b67yis b67ythe b67ylikely b67yprocess b67yby b67ywhich b67ythese b67ydiffer b67yent b67yspecies b67yof
b67yfinches b67ycame b67yabout?
A) vertical b67ydescent b67ywith b67ymutation
B) horizontal b67ygene b67ytransfer
C) an b67yaccumulation b67yof b67yharmful b67ygenetic b67ymutations
4
