Answers Included
f77y
1) A f77ycommunity f77yis f77ycomposed f77yof f77ydifferent f77ypopulations f77yof f77yanimals f77yand f77yplants.
⊚ f 7 7 y true
Test Bank for Biology, 6th Edition by Robert Brooker, Eric Widmaier, Linda
Graham
✅
Chap f701 f76e f7Brooker
⊚ f 7 7 y false
2) All f77ytissues f77yare f77ycomposed f77yof f77ycells.
⊚ f 7 7 y true
⊚ f 7 7 y false
3) A f77yflowerxon f77ya f77yplant f77yrepresents f77ywhich f77ylevel f77yof f77yorganization?
A) atom
B) cell
C) organ
D) organism
E) population
4) Boa f77yconstrictors f77yon f77yan f77yisland f77yare f77yan f77yexample f77yof f77ya(n)
A) cell.
B) organ.
C) organism.
D) population.
E) ecosystem.
5) Molecules f77yare f77ymade f77yup f77yof
A) atoms.
B) cells.
C) organs.
D) organisms.
E) populations.
1
,6) Which f77yis f77ythe f77ysmallest f77yof f77yall f77ylevels f77yof f77yorganization?
A) atom
B) cell
C) organ
D) organism
E) population
7) A f77ycommunity f77yof f77yorganisms f77yinteracting f77ywith f77ytheirxphysical f77yenvironment f77yis f77ya(n)
A) population.
B) organism.
C) biosphere.
D) ecosystem.
E) macromolecular f77ycommunity.
8) In f77ymulticellular f77yorganisms, f77ycells f77yof f77ythe f77ysame f77ytype f77ycan f77yassociate f77ywith f77yeach
otherxto f77yform
f77y
A) atoms.
B) molecules.
C) macromolecules.
D) tissues.
E) populations.
9) Which f77ylevel f77yof f77yorganization f77yis f77ypresent f77yin f77yall f77ylife f77yforms?
A) cell
B) tissue
C) organ
D) organelle
E) colony
10) Which f77ylevel f77yof f77yorganization f77yincludes f77yall f77yof f77ythe f77yothers f77yin f77ythe f77ylist?
A) cell
B) tissue
C) organ
D) organism
E) population
2
,11) During f77yphotosynthesis, f77yplants f77ytake f77yin f77ywater f77yand f77ycarbon f77ydioxide f77yfrom f77ythe
f77yenvironment f77yand f77yuse f77ysunlight f77yto f77yfuel f77ya f77yseries f77yof f77ychemical f77yreactions
f77ythat f77yultimately f77ybuild f77ysmall f77ysugar f77ymolecules. f77yW f77yhich f77yof f77ythe f77ycore
f77yconcepts f77yof f77ybiology f77yis f77yexemplified f77yby f77yphotosynthesis?
A) Evolution
B) Structure f77yand f77yfunction
C) Information f77yflow, f77yexchange, f77yand f77ystorage
D) Pathways f77yand f77ytransformations f77yof f77yenergy f77yand f77ymatter
E) Systems
12) The f77yphenomenon f77ythrough f77ywhich f77ypopulations f77yof f77yorganisms f77ychange f77yover f77ytime
due f77yto f77ymutation, f77ynatural f77yselection, f77yand f77ygenetic f77yexchange f77yis
f77y
A) homeostasis.
B) growth f77yand f77ydevelopment.
C) reproduction.
D) biological f77yevolution.
E) organization.
13) The f77yprotein f77yelastin f77yplays f77yan f77yimportant f77yrole f77yin f77yproviding f77yelasticity f77yand
f77yresilience f77yto f77ymany f77ytiss f77yues f77yin f77ythe f77ybody. f77yElastin f77yhas f77yelastic f77yproperties
f77ybecause f77yof f77ythe f77yway f77ythe f77yprotein f77ycan f77ychange f77yshap
e. f77yIn f77ya f77yrelaxed f77ycondition, f77ythe f77yprotein f77yhas f77yan f77yoverall f77ycoiled, f77yor f77ylooped
f77yshape. f77yWhen f77ystretched, f77ythe f77yprotein f77yextends f77yinto f77ya f77ystraighter, f77ymore
f77ylinear f77yform. f77yWhen f77ythe f77ystretching f77yforce f77yisremoved, f77yelastin f77yrecoils f77yback
f77yinto f77ythe f77yrelaxed f77yform. f77yWhich f77ycore f77yconcept f77yof f77ybiology f77ydoes f77ythe f77yelastin
f77ypro f77ytein f77yexemplify?
A) Evolution
B) Structure f77yand f77yfunction
C) Information f77yflow, f77yexchange, f77yand f77ystorage
D) Pathways f77yand f77ytransformations f77yof f77yenergy f77yand f77ymatter
E) Systems
14) Children f77yoften f77yresemble f77ytheir f77yparents. f77yThe f77ytransmission f77yof f77yan f77yeye f77ycolor
f77ygene f77yfrom f77yparent f77yto f77ychild f77yis f77yan f77yexample f77yof f77ywhich f77ycore f77yconcept f77yof
f77ybiology?
A) Evolution
B) Structure f77yand f77yfunction
C) Information f77yflow, f77yexchange, f77yand f77ystorage
D) Pathways f77yand f77ytransformations f77yof f77yenergy f77yand f77ymatter
E) Systems
3
, 15) Vertical f77yevolution, f77ywhereby f77yliving f77yorganisms f77yevolve f77yfrom f77ya f77ycommon
f77yancestor f77y("tree f77yof f77ylife"), f77yis f77ythe f77yonly f77ymechanism f77yof f77yevolution f77yon f77yEarth.
⊚ f 7 7 y true
⊚ f 7 7 y false
16) All f77ygenetic f77ymutations f77yare f77yharmful f77yto f77yan f77yorganism.
⊚ f 7 7 y true
⊚ f 7 7 y false
17) In f77ythe f77yprocess f77yof f77ybiological f77yevolution, f77ynew f77yspecies f77ymay f77yevolve f77ythrough
f77yexchange f77yof f77ygenes f77yfrom f77yone f77yspecies f77yto f77yanother. f77yThis f77yprocess f77yis
f77ycalled
A) proteome f77ytransfer.
B) horizontal f77ygene f77ytransfer.
C) vertical f77yevolution.
D) vertical f77ydescent f77ywith f77ymutation.
E) genomic f77ysciences.
18) How f77ydoes f77yevolutionary f77ychange f77yoccur?
A) Through f77ythe f77ymodification f77yof f77ycharacteristics f77yin f77ya f77ypreexisting f77ypopulation.
B) It f77ymay f77yinvolve f77yvertical f77ydescent f77ywith f77ymutation.
C) It f77ymay f77yinvolve f77yhorizontal f77ygene f77ytransfer.
D) All f77yof f77ythese f77ychoices f77yare f77ycorrect.
E) None f77yof f77ythese f77ychoices f77yare f77ycorrect.
19) A variety f77yof f77yfinch f77yspecies f77ywithin f77ythe f77yHawaiian f77yIslands f77yhave f77yacquired
f77y
f77ydifferent f77ytypes f77yof f77ybeaks f77yneeded f77yfor f77yutilizing f77yspecific f77yfood f77yresources.
f77yWhat f77yis f77ythe f77ylikely f77yprocess f77yby f77ywhich f77ythese f77ydiffer f77yent f77yspecies f77yof
f77yfinches f77ycame f77yabout?
A) vertical f77ydescent f77ywith f77ymutation
B) horizontal f77ygene f77ytransfer
C) an f77yaccumulation f77yof f77yharmful f77ygenetic f77ymutations
4
f77y
1) A f77ycommunity f77yis f77ycomposed f77yof f77ydifferent f77ypopulations f77yof f77yanimals f77yand f77yplants.
⊚ f 7 7 y true
Test Bank for Biology, 6th Edition by Robert Brooker, Eric Widmaier, Linda
Graham
✅
Chap f701 f76e f7Brooker
⊚ f 7 7 y false
2) All f77ytissues f77yare f77ycomposed f77yof f77ycells.
⊚ f 7 7 y true
⊚ f 7 7 y false
3) A f77yflowerxon f77ya f77yplant f77yrepresents f77ywhich f77ylevel f77yof f77yorganization?
A) atom
B) cell
C) organ
D) organism
E) population
4) Boa f77yconstrictors f77yon f77yan f77yisland f77yare f77yan f77yexample f77yof f77ya(n)
A) cell.
B) organ.
C) organism.
D) population.
E) ecosystem.
5) Molecules f77yare f77ymade f77yup f77yof
A) atoms.
B) cells.
C) organs.
D) organisms.
E) populations.
1
,6) Which f77yis f77ythe f77ysmallest f77yof f77yall f77ylevels f77yof f77yorganization?
A) atom
B) cell
C) organ
D) organism
E) population
7) A f77ycommunity f77yof f77yorganisms f77yinteracting f77ywith f77ytheirxphysical f77yenvironment f77yis f77ya(n)
A) population.
B) organism.
C) biosphere.
D) ecosystem.
E) macromolecular f77ycommunity.
8) In f77ymulticellular f77yorganisms, f77ycells f77yof f77ythe f77ysame f77ytype f77ycan f77yassociate f77ywith f77yeach
otherxto f77yform
f77y
A) atoms.
B) molecules.
C) macromolecules.
D) tissues.
E) populations.
9) Which f77ylevel f77yof f77yorganization f77yis f77ypresent f77yin f77yall f77ylife f77yforms?
A) cell
B) tissue
C) organ
D) organelle
E) colony
10) Which f77ylevel f77yof f77yorganization f77yincludes f77yall f77yof f77ythe f77yothers f77yin f77ythe f77ylist?
A) cell
B) tissue
C) organ
D) organism
E) population
2
,11) During f77yphotosynthesis, f77yplants f77ytake f77yin f77ywater f77yand f77ycarbon f77ydioxide f77yfrom f77ythe
f77yenvironment f77yand f77yuse f77ysunlight f77yto f77yfuel f77ya f77yseries f77yof f77ychemical f77yreactions
f77ythat f77yultimately f77ybuild f77ysmall f77ysugar f77ymolecules. f77yW f77yhich f77yof f77ythe f77ycore
f77yconcepts f77yof f77ybiology f77yis f77yexemplified f77yby f77yphotosynthesis?
A) Evolution
B) Structure f77yand f77yfunction
C) Information f77yflow, f77yexchange, f77yand f77ystorage
D) Pathways f77yand f77ytransformations f77yof f77yenergy f77yand f77ymatter
E) Systems
12) The f77yphenomenon f77ythrough f77ywhich f77ypopulations f77yof f77yorganisms f77ychange f77yover f77ytime
due f77yto f77ymutation, f77ynatural f77yselection, f77yand f77ygenetic f77yexchange f77yis
f77y
A) homeostasis.
B) growth f77yand f77ydevelopment.
C) reproduction.
D) biological f77yevolution.
E) organization.
13) The f77yprotein f77yelastin f77yplays f77yan f77yimportant f77yrole f77yin f77yproviding f77yelasticity f77yand
f77yresilience f77yto f77ymany f77ytiss f77yues f77yin f77ythe f77ybody. f77yElastin f77yhas f77yelastic f77yproperties
f77ybecause f77yof f77ythe f77yway f77ythe f77yprotein f77ycan f77ychange f77yshap
e. f77yIn f77ya f77yrelaxed f77ycondition, f77ythe f77yprotein f77yhas f77yan f77yoverall f77ycoiled, f77yor f77ylooped
f77yshape. f77yWhen f77ystretched, f77ythe f77yprotein f77yextends f77yinto f77ya f77ystraighter, f77ymore
f77ylinear f77yform. f77yWhen f77ythe f77ystretching f77yforce f77yisremoved, f77yelastin f77yrecoils f77yback
f77yinto f77ythe f77yrelaxed f77yform. f77yWhich f77ycore f77yconcept f77yof f77ybiology f77ydoes f77ythe f77yelastin
f77ypro f77ytein f77yexemplify?
A) Evolution
B) Structure f77yand f77yfunction
C) Information f77yflow, f77yexchange, f77yand f77ystorage
D) Pathways f77yand f77ytransformations f77yof f77yenergy f77yand f77ymatter
E) Systems
14) Children f77yoften f77yresemble f77ytheir f77yparents. f77yThe f77ytransmission f77yof f77yan f77yeye f77ycolor
f77ygene f77yfrom f77yparent f77yto f77ychild f77yis f77yan f77yexample f77yof f77ywhich f77ycore f77yconcept f77yof
f77ybiology?
A) Evolution
B) Structure f77yand f77yfunction
C) Information f77yflow, f77yexchange, f77yand f77ystorage
D) Pathways f77yand f77ytransformations f77yof f77yenergy f77yand f77ymatter
E) Systems
3
, 15) Vertical f77yevolution, f77ywhereby f77yliving f77yorganisms f77yevolve f77yfrom f77ya f77ycommon
f77yancestor f77y("tree f77yof f77ylife"), f77yis f77ythe f77yonly f77ymechanism f77yof f77yevolution f77yon f77yEarth.
⊚ f 7 7 y true
⊚ f 7 7 y false
16) All f77ygenetic f77ymutations f77yare f77yharmful f77yto f77yan f77yorganism.
⊚ f 7 7 y true
⊚ f 7 7 y false
17) In f77ythe f77yprocess f77yof f77ybiological f77yevolution, f77ynew f77yspecies f77ymay f77yevolve f77ythrough
f77yexchange f77yof f77ygenes f77yfrom f77yone f77yspecies f77yto f77yanother. f77yThis f77yprocess f77yis
f77ycalled
A) proteome f77ytransfer.
B) horizontal f77ygene f77ytransfer.
C) vertical f77yevolution.
D) vertical f77ydescent f77ywith f77ymutation.
E) genomic f77ysciences.
18) How f77ydoes f77yevolutionary f77ychange f77yoccur?
A) Through f77ythe f77ymodification f77yof f77ycharacteristics f77yin f77ya f77ypreexisting f77ypopulation.
B) It f77ymay f77yinvolve f77yvertical f77ydescent f77ywith f77ymutation.
C) It f77ymay f77yinvolve f77yhorizontal f77ygene f77ytransfer.
D) All f77yof f77ythese f77ychoices f77yare f77ycorrect.
E) None f77yof f77ythese f77ychoices f77yare f77ycorrect.
19) A variety f77yof f77yfinch f77yspecies f77ywithin f77ythe f77yHawaiian f77yIslands f77yhave f77yacquired
f77y
f77ydifferent f77ytypes f77yof f77ybeaks f77yneeded f77yfor f77yutilizing f77yspecific f77yfood f77yresources.
f77yWhat f77yis f77ythe f77ylikely f77yprocess f77yby f77ywhich f77ythese f77ydiffer f77yent f77yspecies f77yof
f77yfinches f77ycame f77yabout?
A) vertical f77ydescent f77ywith f77ymutation
B) horizontal f77ygene f77ytransfer
C) an f77yaccumulation f77yof f77yharmful f77ygenetic f77ymutations
4