TEST BANK @xg
A Problem-Solving Approach to Mathematics for Elementary School
@xg @xg @xg @xg @xg @xg @xg
Teachers @xg
by Rick Billstein, Shlomo Libeskind, Johnny Lott
@xg @xg @xg @xg @xg @xg
13th Edition. @xg
FULL TEST BANK!!!
@xg @xg
TestBanksAdept
, Exam
Name
MULTIPLE CHOICE. Choose the one alternative that best completes the statement or answers the question.
Determine whether the following is a statement. If it is, then also classify the statement as true or false.
1) Why don't you come here? 1)
A) True statement B) Not a statement C) False statement
Answer: B
2) This room is big. 2)
A) False statement B) True statement C) Not a statement
Answer: C
3) 5 - 1 = 4 3)
A) True statement B) Not a statement C) False statement
Answer: A
4) 7x + y = 3 4)
A) False statement B) Not a statement C) True statement
Answer: B
5) Can you bring the book? 5)
A) False statement B) True statement C) Not a statement
Answer: C
6) x + y = x - y, where y = 0 6)
A) Not a statement B) True statement C) False statement
Answer: B
7) 12 = 3y 7)
A) False statement B) True statement C) Not a statement
Answer: C
8) 2.4 = 5.2 8)
A) Not a statement B) False statement C) True statement
Answer: B
9) The state of California is in North America. 9)
A) Not a statement B) True statement C) False statement
Answer: B
10) Brazil is in Asia. 10)
A) True statement B) Not a statement C) False statement
Answer: C
1
TestBanksAdept
, Use @xga @xgquantifier @xgto @xgmake @xgthe @xgfollowing @xg true @xgor @xgfalse, @xgas @xgindicated, @xgwhere @xgx @xgis @xga @xgnatural @xg number.
11) x @xg+ @ x g x @xg= @xg 6 @ x g (make @xg true) 11) @ x g
A) There @xgis @xgno @xgnatural @xg number @xgx @xgsuch @xg that @xgx @xg+ @ x g x @xg= @xg6.
B) There @xgexists @xga @xgnatural @xg number @xgx @xgsuch @xg that @xgx @xg+ @ x g x @xg= @xg 6.
C) For @xgevery @xgnatural @xgnumber @xgx, @xgx @xg+ @ x g x @xg= @xg6.
D) For @xgall @xgnatural @xgnumbers @xgx,
@xg x @xg+ @xgx @xg= @xg6. @xgAnswer: @x g B
12) x3 @xg= @ x g 8 @ x g (make @xg true) 12) @ x g
A) No @xgnatural @xgnumber @xgx @xg exists @xgsuch @xg that @xgx3 @xg = @xg 8.
B) Every @xgnatural @xg number @xgx @xg satisfies @xg x3 @xg= @ x g 8.
C) Three @xgnatural @xg numbers @xgx @xgexist @xgsuch @xgthat @xgx3 @xg= @xg 8.
D) There @xgexists @xga @xgnatural @xgnumber @xgx @xgsuch
@xg that @xgx3 @xg= @xg8. @xgAnswer: @xgD
13) 2x @xg+ @ x g 1 @xg= @xg 5 @xg- @ x g x @ x g (make @xgtrue) 13) @ x g
A) Only @xgtwo @xgnatural @x g numbers @xg x @xgexist @xg such @xg that @xg2x @xg+ @ x g 1 @xg= @ x g 5 @xg- @ x g x.
B) No @xgnatural @ x g number @xg x @xgexists @xgsuch @xgthat @ x g 2x @xg+ @ x g 1 @xg= @xg 5 @xg- @ x g x.
C) For @xgevery @xgnatural @ x g number @xgx, @xg2x @xg+ @ x g 1 @xg= @ xg 5 @xg- @ x g x.
D) There @xgexists @xga @xgnatural @xgnumber @xgx @xgsuch @xgthat
@xg 2x @xg+ @xg1 @xg= @xg5 @xg- @xgx. @xgAnswer: @ xg D
14) 12x @xg= @xg 5x @xg + @ x g 7x @ x g (make @x g false) 14) @ x g
A) More @xgthan @xgone @xgnatural @xgnumber @xg x @xg exists @xgsuch @xgthat @x g 12x @xg = @xg5x @ xg + @x g 7x.
B) For @xgevery @xgnatural @xgnumber @xgx, @xg12x @xg= @xg5x @xg+ @ x g 7x.
C) There @xgexists @xga @xg natural @xgnumber @xgx @xgsuch @xg that @xg12x @xg= @xg5x @xg + @ x g 7x.
D) There @xgis @xgno @xgnatural @xgnumber @xgx @xgsuch @xgthat
@xg 12x @xg= @xg5x @xg+ @xg7x. @xgAnswer: @x g D
15) x @xg- @ x g 13 @xg= @xg13 @xg- @ x g x @ x g (make @xgfalse) 15) @ x g
A) There @xg exists @xg a @xg natural @ x g number @ xg x @xgsuch @x g that @x g x @xg- @ x g 13 @xg= @xg 13 @xg- @ x g x.
B) At @xgleast @xgone @x g natural @x g number @xg x @xg exists @x g such @xg that @xgx @xg - @ x g 13 @xg= @ x g 13 @xg- @ x g x.
C) There @xgis @xgno @xgnatural @ x g number @ x g x @xgsuch @ x g that @xgx @xg- @ x g 13 @xg= @ x g 13 @xg- @ x g x.
D) For @xgx @xg = @ x g 13, @xgx @xg- @ x g 13 @xg= @ x g 13 @xg- @ x g x.
Answer: @xgC
16) 4x @xg= @ x g 7x @ x g (make @xgfalse) 16) @ x g
A) No @xg natural @xg number @xg x @xgsatisfies @xg4x @xg= @ xg 7x.
B) There @xgis @xgno @xgnatural @xg number @xg x @xgsuch @xg that @xg4x @xg= @xg 7x.
C) For @xgevery @xgnatural @xgnumber @xgx,
@xg 4x @xg= @xg7x. @xgAnswer: @x g C
Write @xgthe @xgstatement @xgindicated.
17) Write @xgthe @xgnegation @xgof @xgthe 17) @ x g
@xgfollowing: @xgThe @xgtest @xgis
@xgdifficult.
A) The @xgtest @xgis @xgnot @xgeasy. B) @x g The @xgtest @xgis @xgvery @xgdifficult.
C) @xgThe @xgtest @xgis @xgnot @xgdifficult. D) @xgThe @xgtest @xgis @xgnot
very @xgeasy. @xgAnswer:
@xg @ xg C
2
TestBanksAdept
, 18) Write @xgthe @xgnegation @xgof @xgthe 18) @ x g
@xgfollowing: @xg8 @xg+ @xg2 @xg= @xg10
A) 8 @xg+ @ x g 2 @xg= @ x g 12 B) @ x g The @xgsum @xgof @xg8 @xgand @xg2 @xgis @xgten.
C) @xg 8 @xg+ @xg 2 @xg× @xg10 D) @x g 8 @xg+ @ x g 2 @xg= @xg 2 @xg+ @ x g 8
Answer: @xgC
SHORT @xgANSWER. @xgWrite @xgthe @xgword @xgor @xgphrase @xgthat @xgbest @xgcompletes @xgeach @xgstatement @xgor
answers @xgthe @xgquestion. @xgProvide @xgan @xgappropriate @xgresponse.
@xg
19) Negate @xgthe @xgfollowing: @xgThe @xgstore @xgis @xgsometimes @xgopen @xgon @xgSunday. 19)
Answer:
@xg @x g The @xgstore @xgis @xgnever @xgopen @xgon @xgSunday.
MULTIPLE @xgCHOICE. @ x g Choose @xgthe @xg one @xgalternative @xgthat @xgbest @xgcompletes @xgthe @xgstatement @xg or
@xganswers @xgthe @xg question.
Construct @xga @xgtruth @xgtable @xgfor @xgthe @xgstatement.
20) ~p @xgA~s 20) @ x g
A) p @xgs @ x g (~p @xgA~s) B) @ x g p @xgs @xg (~p @xgA~s)
TT F T T F
TF F T F T
FT F F T T
FF F F F T
C) @xgp s (~p @xgA~s) D) s (~p @xgA~s)
@x g @x T @xg p @x g F
T g @x g T
T T
T F F T F F
F T F F T F
F F T F F T
Answer: @xgD @xg
21) @ x g s @xgV~(r 21)
@xg Ap) p s @xgV~(r B) @ x g s r p s @xgV~(r @ x g Ap)
A) @ x g s r @ x g Ap)
T T T T T T T T
T T F T T T F T
T F T T T F T T
T F F T T F F T
F T T F F T T F
Answer: F @xgT
A F T F T F T
F F T T F F T T
F F@ x g AtF
22) (p @xg A~q) T F F F F 22) @ x g
A) p q t (p @xg A~q) @ x g At B) @ x g p q t (p @xg A~q) @ x g At
T T T F T T T F
T T F F T T F F
T F T T T F T F
T F F F T F F F
F T T F F T T F
F T F F F T F T
F F T F F F T T
F F F F F F F T
Answer: @xgA
3
TestBanksAdept
A Problem-Solving Approach to Mathematics for Elementary School
@xg @xg @xg @xg @xg @xg @xg
Teachers @xg
by Rick Billstein, Shlomo Libeskind, Johnny Lott
@xg @xg @xg @xg @xg @xg
13th Edition. @xg
FULL TEST BANK!!!
@xg @xg
TestBanksAdept
, Exam
Name
MULTIPLE CHOICE. Choose the one alternative that best completes the statement or answers the question.
Determine whether the following is a statement. If it is, then also classify the statement as true or false.
1) Why don't you come here? 1)
A) True statement B) Not a statement C) False statement
Answer: B
2) This room is big. 2)
A) False statement B) True statement C) Not a statement
Answer: C
3) 5 - 1 = 4 3)
A) True statement B) Not a statement C) False statement
Answer: A
4) 7x + y = 3 4)
A) False statement B) Not a statement C) True statement
Answer: B
5) Can you bring the book? 5)
A) False statement B) True statement C) Not a statement
Answer: C
6) x + y = x - y, where y = 0 6)
A) Not a statement B) True statement C) False statement
Answer: B
7) 12 = 3y 7)
A) False statement B) True statement C) Not a statement
Answer: C
8) 2.4 = 5.2 8)
A) Not a statement B) False statement C) True statement
Answer: B
9) The state of California is in North America. 9)
A) Not a statement B) True statement C) False statement
Answer: B
10) Brazil is in Asia. 10)
A) True statement B) Not a statement C) False statement
Answer: C
1
TestBanksAdept
, Use @xga @xgquantifier @xgto @xgmake @xgthe @xgfollowing @xg true @xgor @xgfalse, @xgas @xgindicated, @xgwhere @xgx @xgis @xga @xgnatural @xg number.
11) x @xg+ @ x g x @xg= @xg 6 @ x g (make @xg true) 11) @ x g
A) There @xgis @xgno @xgnatural @xg number @xgx @xgsuch @xg that @xgx @xg+ @ x g x @xg= @xg6.
B) There @xgexists @xga @xgnatural @xg number @xgx @xgsuch @xg that @xgx @xg+ @ x g x @xg= @xg 6.
C) For @xgevery @xgnatural @xgnumber @xgx, @xgx @xg+ @ x g x @xg= @xg6.
D) For @xgall @xgnatural @xgnumbers @xgx,
@xg x @xg+ @xgx @xg= @xg6. @xgAnswer: @x g B
12) x3 @xg= @ x g 8 @ x g (make @xg true) 12) @ x g
A) No @xgnatural @xgnumber @xgx @xg exists @xgsuch @xg that @xgx3 @xg = @xg 8.
B) Every @xgnatural @xg number @xgx @xg satisfies @xg x3 @xg= @ x g 8.
C) Three @xgnatural @xg numbers @xgx @xgexist @xgsuch @xgthat @xgx3 @xg= @xg 8.
D) There @xgexists @xga @xgnatural @xgnumber @xgx @xgsuch
@xg that @xgx3 @xg= @xg8. @xgAnswer: @xgD
13) 2x @xg+ @ x g 1 @xg= @xg 5 @xg- @ x g x @ x g (make @xgtrue) 13) @ x g
A) Only @xgtwo @xgnatural @x g numbers @xg x @xgexist @xg such @xg that @xg2x @xg+ @ x g 1 @xg= @ x g 5 @xg- @ x g x.
B) No @xgnatural @ x g number @xg x @xgexists @xgsuch @xgthat @ x g 2x @xg+ @ x g 1 @xg= @xg 5 @xg- @ x g x.
C) For @xgevery @xgnatural @ x g number @xgx, @xg2x @xg+ @ x g 1 @xg= @ xg 5 @xg- @ x g x.
D) There @xgexists @xga @xgnatural @xgnumber @xgx @xgsuch @xgthat
@xg 2x @xg+ @xg1 @xg= @xg5 @xg- @xgx. @xgAnswer: @ xg D
14) 12x @xg= @xg 5x @xg + @ x g 7x @ x g (make @x g false) 14) @ x g
A) More @xgthan @xgone @xgnatural @xgnumber @xg x @xg exists @xgsuch @xgthat @x g 12x @xg = @xg5x @ xg + @x g 7x.
B) For @xgevery @xgnatural @xgnumber @xgx, @xg12x @xg= @xg5x @xg+ @ x g 7x.
C) There @xgexists @xga @xg natural @xgnumber @xgx @xgsuch @xg that @xg12x @xg= @xg5x @xg + @ x g 7x.
D) There @xgis @xgno @xgnatural @xgnumber @xgx @xgsuch @xgthat
@xg 12x @xg= @xg5x @xg+ @xg7x. @xgAnswer: @x g D
15) x @xg- @ x g 13 @xg= @xg13 @xg- @ x g x @ x g (make @xgfalse) 15) @ x g
A) There @xg exists @xg a @xg natural @ x g number @ xg x @xgsuch @x g that @x g x @xg- @ x g 13 @xg= @xg 13 @xg- @ x g x.
B) At @xgleast @xgone @x g natural @x g number @xg x @xg exists @x g such @xg that @xgx @xg - @ x g 13 @xg= @ x g 13 @xg- @ x g x.
C) There @xgis @xgno @xgnatural @ x g number @ x g x @xgsuch @ x g that @xgx @xg- @ x g 13 @xg= @ x g 13 @xg- @ x g x.
D) For @xgx @xg = @ x g 13, @xgx @xg- @ x g 13 @xg= @ x g 13 @xg- @ x g x.
Answer: @xgC
16) 4x @xg= @ x g 7x @ x g (make @xgfalse) 16) @ x g
A) No @xg natural @xg number @xg x @xgsatisfies @xg4x @xg= @ xg 7x.
B) There @xgis @xgno @xgnatural @xg number @xg x @xgsuch @xg that @xg4x @xg= @xg 7x.
C) For @xgevery @xgnatural @xgnumber @xgx,
@xg 4x @xg= @xg7x. @xgAnswer: @x g C
Write @xgthe @xgstatement @xgindicated.
17) Write @xgthe @xgnegation @xgof @xgthe 17) @ x g
@xgfollowing: @xgThe @xgtest @xgis
@xgdifficult.
A) The @xgtest @xgis @xgnot @xgeasy. B) @x g The @xgtest @xgis @xgvery @xgdifficult.
C) @xgThe @xgtest @xgis @xgnot @xgdifficult. D) @xgThe @xgtest @xgis @xgnot
very @xgeasy. @xgAnswer:
@xg @ xg C
2
TestBanksAdept
, 18) Write @xgthe @xgnegation @xgof @xgthe 18) @ x g
@xgfollowing: @xg8 @xg+ @xg2 @xg= @xg10
A) 8 @xg+ @ x g 2 @xg= @ x g 12 B) @ x g The @xgsum @xgof @xg8 @xgand @xg2 @xgis @xgten.
C) @xg 8 @xg+ @xg 2 @xg× @xg10 D) @x g 8 @xg+ @ x g 2 @xg= @xg 2 @xg+ @ x g 8
Answer: @xgC
SHORT @xgANSWER. @xgWrite @xgthe @xgword @xgor @xgphrase @xgthat @xgbest @xgcompletes @xgeach @xgstatement @xgor
answers @xgthe @xgquestion. @xgProvide @xgan @xgappropriate @xgresponse.
@xg
19) Negate @xgthe @xgfollowing: @xgThe @xgstore @xgis @xgsometimes @xgopen @xgon @xgSunday. 19)
Answer:
@xg @x g The @xgstore @xgis @xgnever @xgopen @xgon @xgSunday.
MULTIPLE @xgCHOICE. @ x g Choose @xgthe @xg one @xgalternative @xgthat @xgbest @xgcompletes @xgthe @xgstatement @xg or
@xganswers @xgthe @xg question.
Construct @xga @xgtruth @xgtable @xgfor @xgthe @xgstatement.
20) ~p @xgA~s 20) @ x g
A) p @xgs @ x g (~p @xgA~s) B) @ x g p @xgs @xg (~p @xgA~s)
TT F T T F
TF F T F T
FT F F T T
FF F F F T
C) @xgp s (~p @xgA~s) D) s (~p @xgA~s)
@x g @x T @xg p @x g F
T g @x g T
T T
T F F T F F
F T F F T F
F F T F F T
Answer: @xgD @xg
21) @ x g s @xgV~(r 21)
@xg Ap) p s @xgV~(r B) @ x g s r p s @xgV~(r @ x g Ap)
A) @ x g s r @ x g Ap)
T T T T T T T T
T T F T T T F T
T F T T T F T T
T F F T T F F T
F T T F F T T F
Answer: F @xgT
A F T F T F T
F F T T F F T T
F F@ x g AtF
22) (p @xg A~q) T F F F F 22) @ x g
A) p q t (p @xg A~q) @ x g At B) @ x g p q t (p @xg A~q) @ x g At
T T T F T T T F
T T F F T T F F
T F T T T F T F
T F F F T F F F
F T T F F T T F
F T F F F T F T
F F T F F F T T
F F F F F F F T
Answer: @xgA
3
TestBanksAdept
