2000 AMC 8 Exam Problems

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1.

Aunt Anna is 4242 years old. Caitlin is 55 years younger than Brianna, and Brianna is half as old as Aunt Anna. How old is Caitlin?

1515

1616

1717

2121

3737

Answer: B
Solution:

Brianna is 42÷2=2142 \div 2 = 21 years old. Caitlin is therefore 215=1621 - 5 = 16 years old.

Thus, B is the correct answer.

2.

Which of these numbers is less than its reciprocal?

2-2

1-1

00

11

22

Answer: A
Solution:

00 has no reciprocal, and 11 and 1-1 are their own reciprocals.

The reciprocal of 22 is 12,\frac{1}{2}, but 22 is not less than 12.\frac{1}{2}.

Therefore, as 2<12,-2 < -\frac 12, we know that 2-2 is the only one of the answer choices that is less than its reciprocal.

Thus, A is the correct answer.

3.

How many whole numbers lie in the interval between 53\frac{5}{3} and 2π?2\pi?

22

33

44

55

infinitely many

Answer: D
Solution:

The smallest whole number greater than 53\frac{5}{3} is 2.2. The greatest whole number less than 2π2\pi is 6.6.

The whole numbers within this range are 2,3,4,5, and 6. 2, 3, 4, 5, \text{ and } 6.

Thus, D is the correct answer.

4.

In 1960 only 5%5\% of the working adults in Carlin City worked at home. By 19701970 the "at-home" work force had increased to 8%.8\%. In 19801980 there were approximately 15%15\% working at home, and in 19901990 there were 30%.30\%. The graph that best illustrates this is

Answer: E
Solution:

The only graph that shows all the data points is graph E.

Thus, E is the correct answer.

5.

Each principal of Lincoln High School serves exactly one 33-year term. What is the maximum number of principals this school could have during an 88-year period?

22

33

44

55

88

Answer: C
Solution:

To maximize the number of principals, assume that the first year of this period is the final year of some principal's term.

Then, there can be 22 more principals for 66 years, followed by another principal who works the final year.

This is 44 principals.

Thus, C is the correct answer.

6.

Figure ABCDABCD is a square. Inside this square three smaller squares are drawn with side lengths as labeled. The area of the shaded L-shaped region is

77

1010

12.512.5

1414

1515

Answer: A
Solution:

We can subtract out the areas of the top unit square, the bottom right unit square, and the top right 4×44 \times 4 square.

The area of ABCDABCD is therefore 5221242=7. 5^2 - 2 \cdot 1^2 - 4^2 = 7.

Thus, A is the correct answer.

7.

What is the minimum possible product of three different numbers of the set {8,6,4,0,3,5,7}?\{-8,-6,-4,0,3,5,7\}?

336-336

280-280

210-210

192-192

00

Answer: B
Solution:

To get a negative product using three numbers, you can either multiply one negative number and two positives, or three negatives.

The only 22 viable options are 864=192 -8 \cdot -6 \cdot -4 = -192 and 857=280. -8 \cdot 5 \cdot 7 = -280. The latter is clearly the lesser value.

Thus, B is the correct answer.

8.

Three dice with faces numbered 11 through 66 are stacked as shown. Seven of the eighteen faces are visible, leaving eleven faces hidden (back, bottom, between). The total number of dots NOT visible in this view is

2121

2222

3131

4141

5353

Answer: D
Solution:

The sum of the numbers on one die is 1+2+3+4+5+6=21. 1 + 2 + 3 + 4 + 5 + 6 = 21. Therefore, the sum of the numbers on all 33 dice is 321=63.3 \cdot 21 = 63.

The visible numbers add up to 1+1+2+3+4+5+6=22. 1 + 1 + 2 + 3 + 4 + 5 + 6 = 22. This makes the sum of the unseen numbers 6322=41.63 - 22 = 41.

Thus, D is the correct answer.

9.

Three-digit powers of 22 and 55 are used in this ''cross-number'' puzzle. What is the only possible digit for the outlined square? Across:Down:2. 2m1. 5n\begin{array}{lcl} \textbf{Across:} & & \textbf{Down:} \\ \textbf{2. } 2^m & & \textbf{1. } 5^n \end{array}

00

22

44

66

88

Answer: D
Solution:

The only 33-digit powers of 55 are 125125 and 625.625. This means that the 22 spot is filled with a 2.2.

The only 22-digit power beginning with a 22 is 256,256, so the outlined square is filled with a 6.6.

Thus, D is the correct answer.

10.

Ara and Shea were once the same height. Since then Shea has grown 20%20\% while Ara has grown half as many inches as Shea. Shea is now 6060 inches tall. How tall, in inches, is Ara now?

4848

5151

5252

5454

5555

Answer: E
Solution:

Let xx be Ara and Shea's initial height. Then we get that 1.2x=60x=50. \begin{align*} 1.2x &= 60 \\ x &= 50. \end{align*}

This means that Shea grew 1010 inches, which means that Ara grew 10÷2=510 \div 2 = 5 inches, making her 50+5=5550 + 5 = 55 inches tall.

Thus, E is the correct answer.

11.

The number 6464 has the property that it is divisible by its unit digit. How many whole numbers between 1010 and 5050 have this property?

1515

1616

1717

1818

2020

Answer: C
Solution:

We can do casework based on the units digit x.x.

x=0:x = 0:

00 solutions since no number is divisible by 0.0.

x=1:x = 1:

44 solutions since every number is divisible by 1.1.

x=2:x = 2:

44 solutions since every number that ends in 22 is divisible by 2.2.

x=3:x = 3:

11 solution since 2323 and 4343 are not divisible by 3,3, but 3333 is.

x=4:x = 4:

22 solutions since 2424 and 4444 are divisible, but 3434 is not.

x=5:x = 5:

44 solutions since every number that ends in 55 is divisible by 5.5.

x=6:x = 6:

11 solutions since 3636 is divisible, but 2626 and 4646 are not.

x=7:x = 7:

00 solutions since 27,3727, 37 and 4747 are all not divisible.

x=8:x = 8:

11 solutions since 4848 is divisible, but 2828 and 3838 are not.

x=9:x = 9:

00 solutions since 29,3929, 39 and 4949 are not divisible.

The total number of numbers is 34+31+2=17. 3 \cdot 4 + 3 \cdot 1 + 2 = 17.

Thus, C is the correct answer.

12.

A block wall 100100 feet long and 77 feet high will be constructed using blocks that are 11 foot high and either 22 feet long or 11 foot long (no blocks may be cut). The vertical joins in the blocks must be staggered as shown, and the wall must be even on the ends. What is the smallest number of blocks needed to build this wall?

344344

347347

350350

353353

356356

Answer: D
Solution:

The total number of rows in the wall is 7,7, with each row being 11 foot high.

To use the minimum number of bricks, rows 1,3,5,1, 3, 5, and 77 will have the same pattern as the bottom row in the picture, which requires 5050 bricks to construct.

Rows 2,4,2, 4, and 66 will have the same pattern as the upper row in the picture, which has 4949 22-foot bricks in the middle and 11 11-foot bricks on each end, for a total of 5151 bricks.

When you add up 44 rows of 5050 bricks and 33 rows of 5151 bricks, you get a total of 450+351=200+153=353450 + 351 = 200 + 153 = 353 bricks.

Thus, D is the correct answer.

13.

In triangle CAT,CAT, we have ACT=ATC\angle ACT =\angle ATC and CAT=36.\angle CAT = 36^\circ. If TR\overline{TR} bisects ATC,\angle ATC, then CRT=\angle CRT =

1616^\circ

5151^\circ

7272^\circ

9090^\circ

108108^\circ

Answer: C
Solution:

We get CAT+ATC+ACT=18036+2ATC=180ATC=72. \begin{align*} \angle CAT + \angle ATC + \angle ACT &= 180 \\ 36 + 2 \cdot \angle ATC &= 180 \\ \angle ATC &= 72^{\circ}. \end{align*}

Due to bisection, we also know that RTC=72÷2=36.\angle RTC = 72 \div 2 = 36^{\circ}.

Finally, we see that RTC+TCR+CRT=18036+72+CRT=180CRT=72. \begin{align*} \angle RTC + \angle TCR + \angle CRT &= 180 \\ 36 + 72 + \angle CRT &= 180 \\ \angle CRT &= 72^{\circ}. \end{align*}

Thus, C is the correct answer.

14.

What is the units digit of 1919+9999?19^{19} + 99^{99}?

00

11

22

88

99

Answer: D
Solution:

Note that the units digit of an exponent depends only upon the units digit of the base.

Experimenting, we get that 99 to even power ends with a 11 and to an odd power ends with a 9.9.

Therefore, 191919^{19} ends with a 99 and 999999^{99} also ends with a 9.9. Adding them together yields a number that ends in 8.8.

Thus, D is the correct answer.

15.

Triangles ABC,ABC, ADE,ADE, and EFGEFG are all equilateral. Points DD and GG are midpoints of AC\overline{AC} and AE,\overline{AE}, respectively. If AB=4,AB = 4, what is the perimeter of figure ABCDEFG?ABCDEFG?

1212

1313

1515

1818

2121

Answer: C
Solution:

The large equilateral triangle has side length 4,4, the middle one has side length 2,2, and the smaller one has side length 1.1.

The perimeter is therefore CB+CD+DE+EFFG+GA+AB=4+4+2+2+1+1+1=15. \begin{gather*} CB + CD + DE + EF \\ FG + GA + AB \\ = 4 + 4 + 2 + 2 + 1 \\ + 1 + 1 = 15. \end{gather*}

Thus, C is the correct answer.

16.

In order for Mateen to walk a kilometer (10001000m) in his rectangular backyard, he must walk the length 2525 times or walk its perimeter 1010 times. What is the area of Mateen's backyard in square meters?

4040

200200

400400

500500

10001000

Answer: C
Solution:

We can see that the length is 1000÷25=401000 \div 25 = 40 m, and the perimeter is 1000÷10=1001000 \div 10 = 100 m.

Note that the perimeter is 22 times the sum of the length and width.

This means that the width is 100÷240=10 m,100 \div 2 - 40 = 10 \text{ m}, and the area is 4010=400 m2.40 \cdot 10 = 400 \text{ m}^2.

Thus, C is the correct answer.

17.

The operation \otimes is defined for all nonzero numbers by ab=a2b.a\otimes b =\dfrac{a^{2}}{b}.

Determine [(12)3][1(23)].[(1\otimes 2)\otimes 3]-[1\otimes (2\otimes 3)].

23-\dfrac{2}{3}

14-\dfrac{1}{4}

00

14\dfrac{1}{4}

23\dfrac{2}{3}

Answer: A
Solution:

We can calculate it as follows. [(12)3][1(23)]=[1223][1223]=[123][143]=(1/2)2312(4/3)=141334=11234=23. \begin{gather*} [(1\otimes 2)\otimes 3]-[1\otimes (2\otimes 3)] \\ = [\dfrac{1^2}{2} \otimes 3] - [1 \otimes \dfrac{2^2}{3}] \\ = [\dfrac{1}{2} \otimes 3] - [1 \otimes \dfrac{4}{3}] \\ = \dfrac{(1 / 2)^2}{3} - \dfrac{1^2}{(4 / 3)} \\ = \dfrac{1}{4} \cdot \dfrac{1}{3} - \dfrac{3}{4} \\ = \dfrac{1}{12} - \dfrac{3}{4} \\= -\dfrac{2}{3}. \end{gather*}

Thus, A is the correct answer.

18.

Consider these two geoboard quadrilaterals. Which of the following statements is true?

The area of quadrilateral II is more than the area of quadrilateral II.II.

The area of quadrilateral II is less than the area of quadrilateral II.II.

The quadrilaterals have the same area and the same perimeter.

The quadrilaterals have the same area, but the perimeter of II is more than the perimeter of II.II.

The quadrilaterals have the same area, but the perimeter of II is less than the perimeter of II.II.

Answer: E
Solution:

Assume that the pegs on this grid are separated by 11 unit.

Note that region II is a parallelogram with base 11 and height 1,1, makings its area 11=1.1 \cdot 1 = 1.

We can split region IIII into 22 triangles. Both with base 11 and height 1.1. This makes the sum of the areas 21211=1. 2 \cdot \dfrac{1}{2} \cdot 1 \cdot 1 = 1. This shows that both regions have the same area.

Note that each region has 22 sides that are of length 2.\sqrt{2}. Region II has 22 unit sides, whereas region IIII only has 1.1.

The other side of region IIII is clearly greater than 1,1, which shows that region IIII has the greater perimeter.

Thus, E is the correct answer.

19.

Three circular arcs of radius 55 units bound the region shown. Arcs ABAB and ADAD are quarter-circles, and arc BCDBCD is a semicircle. What is the area, in square units, of the region?

2525

10+5π10+5\pi

5050

50+5π50+5\pi

25π25\pi

Answer: C
Solution:

Create a rectangle that covers the bottom half of the figure as shown below.

Then, we get that [ABCD]=[ABD]+[BCD]. [ABCD] = [ABD] + [BCD].

We also know that [ABD]=[BDEF][ABE] [ABD] = [BDEF] - [ABE][ADF]. - [ADF].

ABEABE and ADFADF are both quartercircles that form a semicircle with the same area as CBD.CBD.

This means that [ABD]=[BDEF][BCD] [ABD] = [BDEF] - [BCD] and [ABCD]=[BCD]+[BDEF] [ABCD] = [BCD] + [BDEF][BCD] - [BCD] =[BDEF]=105=50. = [BDEF] = 10 \cdot 5 = 50.

Thus, C is the correct answer.

20.

You have nine coins: a collection of pennies, nickels, dimes, and quarters having a total value of $1.02, with at least one coin of each type. How many dimes must you have?

11

22

33

44

55

Answer: A
Solution:

Since we know that we have one coin of each type, we have 1+5+10+25=41 1 + 5 + 10 + 25 = 41 cents already accounted for. We need to figure out what makes up the remaining 10241=61102 - 41 = 61 cents.

Note that we have 55 coins left. This means that we only have one penny, since otherwise we would need 66 pennies.

Now we have 44 coins for 6060 cents.

Note that we need at least one quarter, since otherwise the maximum we could make is 4040 cents with 44 dimes.

One quarter leaves 3535 cents, which cannot be accomplished with 33 coins (33 dimes would only achieve 3030 cents).

This means that there are 22 quarters, leaving 1010 cents. We can see that 22 nickels can make this amount.

Therefore, as only the first one was used, we must only have one dime.

Thus, A is the correct answer.

21.

Keiko tosses one penny and Ephraim tosses two pennies. The probability that Ephraim gets the same number of heads that Keiko gets is

14\dfrac{1}{4}

38\dfrac{3}{8}

12\dfrac{1}{2}

23\dfrac{2}{3}

34\dfrac{3}{4}

Answer: B
Solution:

They can each either get one or zero heads.

The probability that Keiko gets one head is 12.\dfrac{1}{2}. The probability that Ephraim gets one head is 1212+1212=12 \dfrac{1}{2} \cdot \dfrac{1}{2} + \dfrac{1}{2} \cdot \dfrac{1}{2} = \dfrac{1}{2} (heads then tails or tails than heads).

This means the probability that they both get one head is 1212=14.\dfrac{1}{2} \cdot \dfrac{1}{2} = \dfrac{1}{4}.

The probably that Keiko gets zero heads is 12.\dfrac{1}{2}. The probability that Ephraim gets zero heads is if both flips are tails: 1212=14.\dfrac{1}{2} \cdot \dfrac{1}{2} = \dfrac{1}{4}.

Therefore, the probability that both flip zero heads is 1214=18.\dfrac{1}{2} \cdot \dfrac{1}{4} = \dfrac{1}{8}.

Adding up both scenarios yields a total probability of 14+18=38.\dfrac{1}{4} + \dfrac{1}{8} = \dfrac{3}{8}.

Thus, B is the correct answer.

22.

A cube has edge length 2.2. Suppose that we glue a cube of edge length 11 on top of the big cube so that one of its faces rests entirely on the top face of the larger cube. The percent increase in the surface area (sides, top, and bottom) from the original cube to the new solid formed is closest to

1010

1515

1717

2121

2525

Answer: C
Solution:

The original surface area is just 622=64=24. 6 \cdot 2^2 = 6 \cdot 4 = 24.

Note that the top face of the unit cube plus the visible area of the top face of the larger cube is the same as the area of one face of the larger cube.

This means that the unit square on top only adds 44 unit squares to the total surface area, making the increase 4.4.

The percent increase is therefore 100424=1001616.7%. 100 \cdot \dfrac{4}{24} = 100 \cdot \dfrac{1}{6} \approx 16.7\%.

Thus, C is the correct answer.

23.

There is a list of seven numbers. The average of the first four numbers is 5,5, and the average of the last four numbers is 8.8. If the average of all seven numbers is 647,6\frac{4}{7}, then the number common to both sets of four numbers is

5375\frac{3}{7}

66

6476\frac{4}{7}

77

7377\frac{3}{7}

Answer: B
Solution:

The sum of the first four numbers is 45=20.4 \cdot 5 = 20. The sum of the last four numbers is 48=32.4 \cdot 8 = 32.

The sum of all seven numbers is 7647=46.7 \cdot 6\frac{4}{7} = 46. We know that the number common to both sets is included in both of first two sums.

This means that the sum of the first two sums includes every number once, except for the common number which is included twice.

The third sum, however, only includes every number once. This means that the sum of the first two sums minus the third sum yields our desired number.

Therefore, the common number is 20+3246=5246=6. 20 + 32 - 46 = 52 - 46 = 6.

Thus, B is the correct answer.

24.

If A=20\angle A = 20^\circ and AFG=AGF,\angle AFG =\angle AGF, then B+D=\angle B+\angle D =

4848^\circ

6060^\circ

7272^\circ

8080^\circ

9090^\circ

Answer: D
Solution:

We know that 180=A+AFG+AGF=20+2AFG160=2AFG80=AFG. \begin{align*} 180^{\circ} &= \angle A + \angle AFG + \angle AGF \\ &= 20^{\circ} + 2 \cdot \angle AFG \\ 160^{\circ} &= 2 \cdot AFG \\ 80^{\circ} &= \angle AFG. \end{align*}

Now, we get that BFD=180AFG \angle BFD = 180^{\circ} - \angle AFG=18080=100. = 180^{\circ} - 80^{\circ} = 100^{\circ}.

Note that B\angle B and D\angle D are two angles of BFD.\triangle BFD.

This means that 180=BFD+B+DB+D=180100=80. \begin{gather*} 180^{\circ} = \angle BFD + \angle B + \angle D \\ \angle B + \angle D = 180^{\circ} - 100^{\circ} = 80^{\circ}. \end{gather*}

Thus, D is the correct answer.

25.

The area of rectangle ABCDABCD is 7272 units squared. If point AA and the midpoints of BC\overline{BC} and CD\overline{CD} are joined to form a triangle, the area of that triangle is

2121

2727

3030

3636

4040

Answer: B
Solution:

We can find the area of the three right triangles and subtract them from the area of the rectangle to get the desired area.

The three triangles have the following areas:1294=18,12892=18,12492=9. \begin{gather*} \dfrac{1}{2} \cdot 9 \cdot 4 = 18, \\ \dfrac{1}{2} \cdot 8 \cdot \dfrac{9}{2} = 18, \\ \dfrac{1}{2} \cdot 4 \cdot \dfrac{9}{2} = 9. \end{gather*}

The sum of these areas is 18+18+9=45. 18 + 18 + 9 = 45. The desired area is therefore 7245=27. 72 - 45 = 27.

Thus, B is the correct answer.