analytical geometry 2
TRANSCRIPT
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Analytical Geometry 2Problem 1: CE Board May 1995What is the radius of the circle x2 + y2 – 6y = 0?
• A. 2
•
B. 3• C. 4
• D.Problem 2: CE Board November 1995What are the coordi!ates of the ce!ter of the cur"e x2 + y2 – 2x – 4y – 3# = 0?
• A. $%#& %#'
• B. $%2& %2'
• C. $#& 2'
• D. $2& #'Problem 3:A circle (hose e)uatio! is x2 + y2 + 4x +6y – 23 = 0 has its ce!ter at
• A. $2& 3'
• B. $3& 2'
• C. $%3& 2'
• D. $%2& %3'Problem 4: ME Board April 199What is the radius of a circle (ith the *. e)uatio! x2 – 6x + y2 – 4y – #2 = 0
• A. 3.46
• B. ,
• C.
• D.6Problem 5: ECE Board April 199 -he diaeter of a circle descri/ed /y x2 + y2 = #6 is?
• A. 413
•
B. #61• C. 13
• D.4Problem !: CE Board May 199!o( far fro the y%axis is the ce!ter of the cur"e 2x2 + 2y2 +#0x – 6y – =0
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• A. %2.
• B. %3.0
• C. %2.,
• D.%3.2Problem ":What is the dista!ce /et(ee! the ce!ters of the circles x2 + y2 + 2x + 4y – 3= 0 a!d x2 + y2 + 2x – x – 6y + , = 0?
• A. ,.0,
• B. ,.,,
• C. .0,
• D.,.,Problem : CE Board November 1993
-he shortest dista!ce fro A $3& ' to the circle x2
+ y2
+ 4x – 6y = #2 is e)ualto?
• A. 2.#
• B. 2.3
• C. 2.
• D.2.,Problem 9: ME Board #ctober 199! -he e)uatio! circle x2 + y2 – 4x + 2y – 20 = 0 descri/es
•
A. A circle of radius ce!tered at the orii!.• B. A! ecli5se ce!tered at $2& %#'.
• C. A s5here ce!tered at the orii!.
• D.A circle of radius ce!tered at $2& %#'.Problem 1$: EE Board April 199"
-he ce!ter of a circle is at $#& #' a!d o!e 5oi!t o! its circufere!ce is $%#& %3'.i!d the other e!d of the diaeter throuh $%#& %3'.
• A. $2& 4'
• B. $3& '
• C. $3& 6'
• D. $#& 3'Problem 11:i!d the area $i! s)uare u!its' of the circle (hose e)uatio! is x 2 + y2 = 6x –y.
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• A. 20 7
• B. 22 7
• C. 2 7
• D. 2, 7Problem 12:
Deteri!e the e)uatio! of the circle (hose radius is & ce!ter o! the li!e x =2 a!d ta!e!t to the li!e 3x – 4y + ## = 0.
• A. $x – 2'2 + $y – 2'2 =
• B. $x – 2'2 + $y + 2'2 = 2
• C. $x – 2'2 + $y + 2'2 =
• D. $x – 2'2 + $y – 2'2 = 2Problem 13:
i!d the e)uatio! of the circle (ith the ce!ter at $%4& %' a!d ta!e!t to theli!e 2x + ,y – #0 = 0.
• A. x2 + y2 + x – #0y – #2 = 0
• B. x2 + y2 + x – #0y + #2 = 0
• C. x2 + y2 + x + #0y – #2 = 0
• D. x2 + y2 – x + #0y + #2 = 0Problem 14: ECE Board April 199i!d the "alue of 8 for (hich the e)uatio! x2 + y2 + 4x – 2y – 8 = 0 re5rese!tsa 5oi!t circle.
•
A. • B. 6
• C. %6
• D. %Problem 15: ECE Board April 19993x2 + 2x – y + , = 0. Deteri!e the cur"e.
• A. 9ara/ola
• B. :lli5se
• C. Circle
• D. y5er/olaProblem 1!: CE Board May 1993% CE Board November 1993% ECEBoard April 1994 -he focus of the 5ara/ola y2 = #6x is at
• A. $4& 0'
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• B. $0& 4'
• C. $3& 0'
• D. $0& 3'Problem 1": CE Board November 1994
Where is the "ertex of the 5ara/ola x2 = 4$y – 2'?• A. $2& 0'
• B. $0& 2'
• C. $3& 0'
• D. $0& 3'Problem 1: ECE Board April 1994% ECE Board April 1999i!d the e)uatio! of the directrix of the 5ara/ola y 2 = #6x.
• A. x = 2
• B. x = %2
• C. x = 4
• D. x = %4Problem 19:;i"e! the e)uatio! of a 5ara/ola 3x + 2y2 – 4y + , = 0.
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i!d the locatio! of the focus of the 5ara/ola y2 + 4x – 4y – = 0.
• A. $2.& %2'
• B. $3& #'
• C. $2& 2'
• D. $%2.& %2'Problem 23: ECE Board April 199i!d the e)uatio! of the axis of syetry of the fu!ctio! y = 2x2 – ,x + .
• A. ,x + 4 = 0
• B. 4x + , = 0
• C. 4x – , = 0
• D. x – 2 = 0Problem 24:
A 5ara/ola has its focus at $,& %4' a!d directrix y = 2. i!d its e)uatio!.• A. x2 + #2y – #4x + 6# = 0
• B. x2 – #4y + #2x + 6# = 0
• C. x2 – #2x + #4y + 6# = 0
• D. !o!e of the a/o"eProblem 25:
A 5ara/ola has its axis 5arallel to the x%axis& "ertex at $%#& ,' a!d o!e e!d of
the latus rectu at $%#14& 312'. i!d its e)uatio!.• A. y2 – ##y + ##x – 60 = 0
• B. y2 – ##y + #4x – 60 = 0
• C. y2 – #4y + ##x + 60 = 0
• D. !o!e of the a/o"eProblem 2!: ECE Board November 199"Co5ute the focal le!th a!d the le!th of the latus rectu of the 5ara/olay2 + x – 6y + 2 = 0.
• A. 2&
•
B. 4& #6• C. #6& 64
• D. #& 4Problem 2":;i"e! a 5ara/ola $y – 2'2 = $x – #'. What is the e)uatio! of its directrix?
• A. x = %3
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• B. x = 3
• C. y = %3
• D. y = 3Problem 2: ME Board #ctober 199"
-he e!eral e)uatio! of a co!ic sectio! is i"e! /y the follo(i! e)uatio!Ax2 + Bxy + Cy2 + Dx + :y + = 0. A cur"e ay/e ide!tied as a! elli5se /y(hich of the follo(i! co!ditio!s?
• A. B2 – 4AC @ 0
• B. B2 – 4AC = 0
• C. B2 – 4AC 0
• D. B2 – 4AC = #Problem 29: CE Board November 1994What is the area e!closed /y the cur"e x2 + 2y2 – 22 = 0?
• A. 4,.#
• B. 0.2
• C. 63.
• D. ,2.3Problem 3$: ECE Board April 199
9oi!t 9 $x& y' o"es (ith a dista!ce fro 5oi!t $0& #' o!e%half of its dista!cefro li!e y = 4. -he e)uatio! of its locus is?
• A. 2x2 – 4y2 =
• B. 4x2 + 3y2 = #2
• C. 2x2 + y3 = 3• D. x2 + 2y2 = 4
Problem 31:
-he le!ths of the aor a!d i!or axes of a! elli5se are #0 a!d &res5ecti"ely. i!d the dista!ce /et(ee! the foci.
• A. 3
• B. 4
• C.
• D. 6Problem 32: -he e)uatio! 2x2 + #6y2 – #0x + #2y + # = 0 has its ce!ter at?
• A. $3& %4'
• B. $3& 4'
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• C. $4& %3'
• D. $3& 'Problem 33: EE Board #ctober 199"i!d the aor axis of the elli5se x2 + 4y2 – 2x – y + # = 0.
• A. 2• B. #0
• C. 4
• D. 6Problem 34: CE Board May 1993
-he le!th of the latus rectu for the elli5se is e)ual to?
• A. 2
• B. 3
• C. 4
• D. Problem 35:
A! elli5se (ith a! ecce!tricity of 0.6 a!d has o!e of its foci 2 u!its fro thece!ter. -he le!th of the latus rectu is !earest to?
• A. 3. u!its
• B. 3. u!its
• C. 4.2 u!its
• D. 3.2 u!itsProblem 3!:
A! earth satellite has a! a5oee of 40&000 8 a!d a 5eriee of 6&600 8.Assui! the radius of the earth as 6&400 8& (hat (ill /e the ecce!tricity
of the elli5tical 5ath descri/ed /y the satellite (ith the ce!ter of the earth ato!e of the foci?
• A. 0.46
• B. 0.4
• C. 0.2
• D. 0.6
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Problem 3": ECE Board April 199
-he aor axis of the elli5tical 5ath i! (hich the earth o"es arou!d the su!is a55roxiately #6&000&000 iles a!d the ecce!tricity of the elli5se is#160. Deteri!e the a5oee of the earth.
• A. 3&000&000 iles
• B. #&40&000 iles
• C. 4&33 iles
• D. 4&0&000 ilesProblem 3: CE Board November 1992
-he earths or/it is a! elli5se (ith the su! at o!e of the foci. f the farthestdista!ce of the su! fro the earth is #0. illio! 8 a!d the !earest
dista!ce of the su! fro the earth is ,.2 illio! 8& !d the ecce!tricity of the elli5se.
• A. 0.#
• B. 0.2
• C. 0.3
• D. 0.4Problem 39:
A! elli5se (ith ce!ter at the orii! has a le!th of aor axis 20 u!its. f the
dista!ce fro ce!ter of elli5se to its focus is & (hat is the e)uatio! of itsdirectrix?
• A. x = #
• B. x = 20
• C. x = #
• D. x = #6Problem 4$:What is the le!th of the latus rectu of 4x2 + y2 + x – 32 = 0?
• A. 2.• B. 2.,
• C. 2.3
• D. 2.Problem 41: EE Board #ctober 19934x2 – y2 = #6 is the e)uatio! of a1a!?
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• A. 5ara/ola
• B. hy5er/ola
• C. circle
• D. elli5seProblem 42: EE Board #ctober 1993i!d the ecce!tricity of the cur"e x2 – 4y2 – 36x + y = 4.
• A. #.0
• B. #.2
• C. #.6
• D. #.,6Problem 43: CE Board November 1995o( far fro the x%axis is the focus of the hy5er/ola x2 – 2y2 + 4x + 4y + 4
= 0?• A. 4.
• B. 3.4
• C. 2.,
• D. 2.#Problem 44: EE Board #ctober 1994
-he sei%tra!s"erse axis of the hy5er/ola is?
• A. 2
• B. 3
• C. 4
• D. Problem 45: CE Board May 199!
What is the e)uatio! of the asy5tote of the hy5er/ola?
• A. 2x – 3y = 0
• B. 3x – 2y = 0
• C. 2x – y = 0
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• D. 2x + y = 0Problem 4!: EE Board April 1994
i!d the e)uatio! of the hy5er/ola (hose asy5totes are y = 2x a!d(hich 5asses throuh $12& 3'.
• A. 4x2 + y2 + #6 = 0• B. 4x2 + y2 – #6 = 0
• C. x2 – 4y2 – #6 = 0
• D. 4x2 – y2 = #6Problem 4":
i!d the e)uatio! of the hy5er/ola (ith "ertices $%4& 2' a!d $0& 2' a!d foci $%&2' a!d $#& 2'.
• A. x2 – 4y2 + 20x +#6y – #6 = 0
• B. x2 – 4y2 + 20x – #6y – #6 = 0
• C. x2 – 4y2 – 20x +#6y + #6 = 0• D. x2 + 4y2 – 20x +#6y – #6 = 0
Problem 4:i!d the dista!ce /et(ee! 9# $6& %2& %3' a!d 92 $& #& %4'.
Problem 49:
-he 5oi!t of i!tersectio! of the 5la!es x + y – 2E = F 3x – 2y + E = 3 a!d x+ y + E = 2 is at?
• A. $2& #& %#'
• B. $2& 0& %#'
• C. $%#& #& %#'
• D. $%#& 2& %#'Problem 5$: ME Board April 199"
What is the radius of the s5here ce!ter at the orii! that 5asses the 5oi!t &#& 6?
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Problem 51:
-he e)uatio! of a s5here (ith ce!ter at $%3& 2& 4' a!d of radius 6 u!its is?• A. x2 + y2 + E2 +6x – 4y – E = 36
• B. x2 + y2 + E2 +6x – 4y – E = ,
• C. x2 + y2 + E2 +6x – 4y + E = 6
• D. x2 + y2 + E2 +6x – 4y + E = 36Problem 52: EE Board April 199"
i!d the 5olar )uestio! of the circle& if its ce!ter is at $4& 0' a!d the radius 4.
• A. r – cos G = 0
• B. r – 6 cos G = 0
• C. r – #2 cos G = 0
• D. r – 4 cos G = 0Problem 53: ME Board #ctober 199!What are the x a!d y coordi!ates of the focus of the ico!ic sectio! descri/ed/y the follo(i! e)uatio!? $A!le G corres5o!ds to a riht tria!le (ithadace!t side x& o55osite side y a!d the hy5ote!use r.' r &in2 ' ( co& '
• A. $#14& 0'
• B. $0& 712'
• C. $0& 0'
• D. $%#12& 0'Problem 54:
i!d the 5olar e)uatio! of the circle of radius 3 u!its a!d ce!ter at $3& 0'.
• A. r = 3 cos G
• B. r = 3 si! G
• C. r = 6 cos G
• D. r = si! GProblem 55: EE Board #ctober 199"
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;i"e! the 5olar e)uatio! r = si! G. Deteri!e the recta!ular coordi!ate$x& y' of a 5oi!t i! the cur"e (he! G is 30H.
• A. $2.#,& #.2'
• B. $3.0& #.'
• C. $2.#& 4.#2'
• D. $6& 3'
#. -he "ertex of the 5ara/ola y2 – 2x + 6y + 3 = 0 is at
• A. $%3& 3'
• B. $3& 3'
• C. $%3& 3'
• D. $%3& %3'
2. -he le!th of the latus rectu of the 5ara/ola y2 = 45x is
• A. 45
• B. 25
• C. 9
• D. %453. ;i"e! the e)uatio! of the 5ara/ola y2 – x – 4y – 20 = 0. -he le!th ofits latus rectu is
• A. 2
• B. 4
• C. 6
• D. 4. What is the le!th of the latus rectu of the cur"e x2 = –#2y?
• A. #2
• B. %3
• C. 3
• D. %#2. i!d the e)uatio! of the directrix of the 5ara/ola y 2 = 6x.
• A. x =
• B. x = 4
• C. x = %
• D. x = %4
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6. -he cur"e y = –x2 + x + # o5e!s
• A. >5(ard
• B. -o the left
• C. -o the riht
• D. Do(!(ard,. -he 5ara/ola y = –x2 + x + # o5e!s
• A. -o the riht
• B. -o the left
• C. >5(ard
• D. Do(!(ard. i!d the e)uatio! of the axis of syetry of the fu!ctio! y = 2x2 – ,x +.
• A. 4x + , = 0
• B. x – 2 = 0
• C. 4x – , = 0
• D. ,x + 4 = 0
. i!d the e)uatio! of the locus of the ce!ter of the circle (hich o"es sothat it is ta!e!t to the y%axis a!d to the circle of radius o!e $#' (ith ce!terat $2&0'.
•
A. x2
+ y2
– 6x + 3 = 0• B. x2 – 6x + 3 = 0
• C. 2x2 + y2 – 6x + 3 = 0
• D. y2 – 6x + 3 = 0
60. i!d the e)uatio! of the 5ara/ola (ith "ertex at $4& 3' a!d focus at $4&%#'.
• A. y2 – x + #6y – 32 = 0
• B. y2 + x + #6y – 32 = 0
• C. y2 + x – #6y + 32 = 0
• D. x2 – x + #6y – 32 = 06#. i!d the area /ou!ded /y the cur"es x2 + y + #6 = 0& x – 4 = 0& the x%axis& a!d the y%axis.
• A. #0.6, s). u!its
• B. #0.33 s). u!its
• C. .6, s). u!its
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• D. s). u!its62. i!d the area $i! s). u!its' /ou!ded /y the 5ara/olas x 2 – 2y = 0 a!dx2 + 2y – = 0
• A. ##.,
• B. #0.,• C. .,
• D. 4.,63. -he le!th of the latus rectu of the cur"e $x – 2'2 1 4 = $y + 4'2 1 2 = #is
• A. #.6
• B. 2.3
• C. 0.0
• D. #.2
64. i!d the le!th of the latus rectu of the follo(i! elli5se2x2 + y2 – 300x –#44y + #2# = 0
• A. 3.4
• B. 3.2
• C. 3.6
• D. 3.0
6. f the le!th of the aor a!d i!or axes of a! elli5se is #0 c a!d c&res5ecti"ely& (hat is the ecce!tricity of the elli5se?
• A. 0.0
• B. 0.60
• C. 0.,0
• D. 0.066. -he ecce!tricity of the elli5se x214 + y2 1 #6 = # is
• A. 0.,2• B. 0.26
• C. 0.6
• D. 0.666,. A! elli5se has the e)uatio! #6x2 + y2 + 32x – #2 = 0. ts ecce!tricity is
• A. 0.3#
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• B. 0.66
• C. 0.24
• D. 0.36. -he ce!ter of the elli5se 4x2 + y2 – #6x – 6y – 43 = 0 is at
• A. $2& 3'
• B. $4& %6'
• C. $#& '
• D. $%2& %'
6. i!d the ratio of the aor axis to the i!or axis of the elli5sex2 + 4y2 – ,2x – 24y – #44 = 0
• A. 0.6,
• B. #.
• C. #.
• D. 0.,,0. -he area of the elli5se x2 + 2y2 – 36x – # = 0 is e)ual to
• A. #7 s). u!its
• B. 207 s). u!its
• C. 27 s). u!its
• D. 307 s). u!its,#. -he area of the elli5se is i"e! as A = 3.#4#6 a /. i!d the area of theelli5se 2x2 + #6y2 – #00x + 32y = 24
• A. 6.2 s)uare u!its
• B. 62. s)uare u!its
• C. 6.2 s)uare u!its
• D. 2.6 s)uare u!its
,2. -he sei%aor axis of a! elli5se is 4 a!d its sei%i!or axis is 3. -hedista!ce fro the ce!ter to the directrix is
• A. 6.32
• B. 6.04,
• C. 0.66#4
• D. 6.222
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,3. ;i"e! a! elli5se x2 1 36 + y2 1 32 = #. Deteri!e the dista!ce /et(ee!foci.
• A. 2
• B. 3
• C. 4
• D. ,4. o( far a5art are the directrices of the cur"e 2x2 + y2 – 300x – #44y +#2# = 0?
• A. #2.
• B. #4.2
• C. #3.2
• D. #.2
,. -he aor axis of the elli5tical 5ath i! (hich the earth o"es arou!d thesu! is a55roxiately #6&000&000 iles a!d the ecce!tricity of the elli5se is#160. Deteri!e the a5oee of the earth.
• A. 4&0&000 iles
• B. 4&33.#00 iles
• C. #&40&000 iles
• D. 3&000&000 iles
,6. i!d the e)uatio! of the elli5se (hose ce!ter is at $%3& %#'& "ertex at $2&%#'& a!d focus at $#& %#'.
• A. x2 + 36y2 – 4x + 0y – ##6 = 0
• B. 4x2 + 2y2 + 4x – 0y – #22 = 0
• C. x2 + 2y2 + 0x + 0y + #0 = 0
• D. x2 + 2y2 + 4x + 0y – ## = 0
,,. 9oi!t 9$x& y' o"es (ith a dista!ce fro 5oi!t $0& #' o!e%half of itsdista!ce fro li!e y = 4& the e)uatio! of its locus is
• A. 4x2 + 3y2 = #2• B. 2x2 % 4y2 =
• C. x2 + 2y2 = 4
• D. 2x2 + y3 = 3
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,. -he chords of the elli5se 64I2 + 2yI2 = #600 ha"i! e)ual slo5es of#1 are /isected /y its diaeter. Deteri!e the e)uatio! of the diaeter ofthe elli5se.
• A. x – 64y = 0
•
B. 64x – y = 0• C. x +64y = 0
• D. 64x + y = 0,. i!d the e)uatio! of the u5(ard asy5tote of the hy5er/ola (hosee)uatio! is $x – 2'2 1 – $y + 4'2 1 #6
• A. 3x + 4y – 20 = 0
• B. 4x – 3y – 20 = 0
• C. 4x + 3y – 20 = 0
• D. 3x – 4y – 20 = 00. -he sei%co!uate axis of the hy5er/ola $x21' – $y214' = # is
• A. 2
• B. %2
• C. 3
• D. %3#. What is the e)uatio! of the asy5tote of the hy5er/ola $x 21' – $y214' = #.
• A. 2x – 3y = 0
• B. 3x – 2y = 0
• C. 2x – y = 0
• D. 2x + y = 0
2. -he ra5h y = $x – #' 1 $x + 2' is !ot de!ed at
• A. 0
• B. 2
•
C. %2• D. #
3. -he e)uatio! x2 + Bx + y2 + Cy + D = 0 is
• A. y5er/ola
• B. 9ara/ola
• C. :lli5se
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• D. Circle4. -he e!eral seco!d deree e)uatio! has the for Ax2 + Bxy + Cy2 + Dx+ :y + = 0 a!d descri/es a! elli5se if
• A. B2 – 4AC = 0
• B. B2 – 4AC 0
• C. B2 – 4AC = #• D. B2 – 4AC @ 0
. i!d the e)uatio! of the ta!e!t to the circle x 2 + y2 – 34 = 0 throuh5oi!t $3& '.
• A. 3x + y %34 = 0
• B. 3x – y – 34 = 0
• C. 3x + y + 34 = 0
• D. 3x – y + 34 = 0
6. i!d the e)uatio! of the ta!e!t to the cur"e x2
+ y2
+ 4x + #6y – 32 = 0throuh $4& 0'.
• A. 3x – 4y + #2 = 0
• B. 3x – 4y – #2 = 0
• C. 3x + 4y + #2 = 0
• D. 3x + 4y % #2 = 0,. i!d the e)uatio! of the !oral to the cur"e y2 + 2x + 3y = 0 thouh5oi!t $%&2'
• A. ,x + 2y + 3 = 0
• B. ,x % 2y + 3 = 0
• C. 2x % ,y % 3 = 0
• D. 2x + ,y % 3 = 0. Deteri!e the e)uatio! of the li!e ta!e!t to the ra5h y = 2x2 + #& atthe 5oi!t $#& 3'.
• A. y = 4x + #
• B. y = 4x – #
•
C. y = 2x – #• D. y = 2x + #
. i!d the e)uatio! of the ta!e!t to the cur"e x 2 + y2 = 4# throuh $& 4'.
• A. x + 4y = 4#
• B. 4x – y = 4#
• C. 4x + y = 4#
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• D. x – 4y = 4#0. i!d the e)uatio! of a li!e !oral to the cur"e x2 = #6y at $4& #'.
• A. 2x – y – = 0
• B. 2x – y + =
• C. 2x + y – = 0
• D. 2x + y + = 0#. What is the e)uatio! of the ta!e!t to the cur"e x2 + 2y2 – 22 = 0 at$0& 3'?
• A. y + 3 = 0
• B. x + 3 = 0
• C. x – 3 = 0
• D. y – 3 = 0
2. What is the e)uatio! of the !oral to the cur"e x2 + y2 = 2 at $4& 3'?
• A. 3x – 4y = 0
• B. x + 3y = 0
• C. x – 3y = 0
• D. 3x + 4y = 0
3. -he 5olar for of the e)uatio! 3x + 4y – 2 = 0 is
• A. 3r si! J + 4r cos J = 2
• B. 3r cos J + 4r si! J = %2
• C. 3r cos J + 4r si! J = 2
• D. 3r si! J + 4r ta! J = %2
4. -he 5olar for of the e)uatio! 3x + 4y – 2 = 0 is• A. r2 =
• B. r = J1$cos2 J + 2'
• C. r =
• D. r2 = 1$cos2 J + 2'
. the dista!ce /et(ee! 5oi!ts $& 30K' a!d $%& %0K' is
• A. .4
• B. #0.#4
• C. 6.#3
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• D. #2.#4
6. Co!"ert J = 713 to Cartesia! e)uatio!.
• A. x = L3 x
• B. y = x
• C. 3y = L3 x
• D. y =L3 x
,. -he 5oi!t of i!tersectio! of the 5la!es x + y – 2E = & 3x – 2y + E = 3&a!d x + y + E = 2 is
• A. $2& #& %#'
• B. $2& 0& %#'
• C. $%#& #& %#'
• D. $%#& 2& #'
. A (arehouse roof !eeds a recta!ular s8yliht (ith "ertices $3& 0& 0'& $3&3& 0'& $0& 3& 4'& a!d $0& 0& 4'. f the u!its are i! eter& the area of the s8ylihtis
• A. #2 s). .
• B. 20 s). .
• C. # s). .• D. s). .
. -he dista!ce /et(ee! 5oi!ts i! s5ace coordi!ates are $3& 4& ' a!d $4& 6&,' is
• A. #
• B. 2
• C. 3
• D. 4
#00. What is the radius of the s5here (ith ce!ter at orii! a!d (hich 5assesthrouh the 5oi!t $& #& 6'?
• A. #0
• B.
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• C.L#0#
• D. #0.
M