AMC 8 · 2010 · #11

Easy mode Grade 6

Problem

Picture two trees standing side by side. One tree is taller than the other.

The top of the taller tree is $16$ feet higher than the top of the shorter tree. For every $3$ feet of the shorter tree's height, the taller tree is $4$ feet tall. (That is what "ratio $3 : 4$ " means.)

How tall, in feet, is the taller tree?

Pick an answer.

(A)

(B)

(C)

(D)

(E)

112

View mode:

Toolkit + CCSS Solution

Understand

Restated: Two trees stand side by side. The taller tree's top is $16$ feet above the shorter tree's top, and the two heights are in the ratio $3:4$ (short to tall). In feet, how tall is the taller tree?

Givens: Height of the shorter tree : height of the taller tree $= 3 : 4$; The taller tree's top is $16$ feet higher than the shorter tree's top; Answer choices: (A) $48$, (B) $64$, (C) $80$, (D) $96$, (E) $112$ (feet)

Unknowns: The height of the taller tree in feet

Understand

Plan

Primary tool: #9 Solve an Easier Related Problem

Secondary: #3 Eliminate Possibilities

The ratio $3:4$ already gives us a tiny version of the problem — two "trees" of heights $3$ and $4$, differing by $1$. Tool #9 (Easier Related Problem) says: solve the small case first, then scale it up until the difference matches the real $16$ feet. That avoids algebra entirely. Tool #3 (Eliminate Possibilities) is the multiple-choice safety net: the taller tree must be divisible by $4$ (so the shorter side $\tfrac{3}{4}$ of it is a whole number), which already cuts the choices down.

Execute — Answer: B

#9 Solve an Easier Related Problem 6.RP.A.1 Step 1

Start with the easier version.
Pretend the trees are just $3$ feet and $4$ feet tall — they satisfy the $3:4$ ratio.
In this baby problem the taller tree is $4 - 3 = 1$ foot higher.

$$\text{small case: heights } = 3, 4 \Rightarrow \text{gap} = 4 - 3 = 1$$

💡 Replacing the unknown heights with the ratio numbers themselves is the cleanest "easier problem" — a Grade 6 ratio idea.

#9 Solve an Easier Related Problem 4.OA.A.2 Step 2

Scale the small case up to the real problem.
The real gap is $16$ feet but the small-case gap is only $1$ foot, so every length must be multiplied by $16$ to keep the same $3:4$ ratio.

$$\text{scale factor} = \dfrac{16}{1} = 16$$

💡 "Multiply both numbers by the same factor" is exactly Grade 4 multiplicative comparison.

#9 Solve an Easier Related Problem 6.RP.A.3 Step 3

Apply the scale factor to both trees.
The shorter tree becomes $3 \times 16 = 48$ feet and the taller tree becomes $4 \times 16 = 64$ feet.
Check: the ratio is still $48:64 = 3:4$ and the gap is $64 - 48 = 16$ feet — both conditions match.

$$3 \times 16 = 48, \quad 4 \times 16 = 64, \quad 64 - 48 = 16 \;\checkmark$$

💡 Scaling a ratio by a common factor preserves it — the heart of Grade 6 ratio reasoning.

#3 Eliminate Possibilities 6.RP.A.3 Step 4

Confirm against the answer choices.
The taller tree is $64$ feet, which is choice (B).
As a sanity sweep, the taller tree must be a multiple of $4$ for the shorter tree $\tfrac{3}{4} \cdot h$ to be a whole number — that eliminates (C) $80$ as the only nondivisible-by-$4$...
actually (C) $80$ IS divisible by $4$, so we instead check the gap $\tfrac{1}{4}h = 16$ directly: only $h = 64$ works.

$$\tfrac{1}{4} h = 16 \Rightarrow h = 64 \;\Rightarrow\; \textbf{(B)}$$

💡 Testing each choice against "$\tfrac{1}{4}$ of the taller tree equals the gap" is the Tool #3 elimination move.

[1] #9 6.RP.A.1 Start with the easier version. Pretend the trees are just $3$ feet and $4$ feet

[2] #9 4.OA.A.2 Scale the small case up to the real problem. The real gap is $16$ feet but the s

[3] #9 6.RP.A.3 Apply the scale factor to both trees. The shorter tree becomes $3 \times 16 = 48

[4] #3 6.RP.A.3 Confirm against the answer choices. The taller tree is $64$ feet, which is choic

Review

Reasonableness: Heights of $48$ ft and $64$ ft are realistic for medium-sized trees, and $64 - 48 = 16$ ft matches the given gap exactly. The ratio $48 : 64$ simplifies to $3 : 4$ by dividing both by $16$, so both problem conditions are satisfied. The answer (B) is the only choice that pairs with a whole-number partner $\tfrac{3}{4}\cdot 64 = 48$ differing by exactly $16$.

Alternative: Tool #13 (Convert to Algebra) also works: let the shorter tree be $3k$ and the taller be $4k$ for some scale $k$. Then $4k - 3k = k = 16$, so the taller tree is $4k = 64$ ft. This is the same idea as the easier-problem scaling but written with a variable; for a Grade 4-6 learner the scaling story is faster and friendlier.

CCSS standards used (min grade 6)

4.OA.A.2 Multiply or divide to solve word problems involving multiplicative comparison (Recognizing that scaling both tree heights by the same factor ($\times 16$) is a multiplicative-comparison move that preserves the ratio.)
6.RP.A.1 Understand the concept of a ratio and use ratio language (Reading the $3:4$ ratio as a small-case pair of heights ($3$ and $4$) before scaling up to the real trees.)
6.RP.A.3 Use ratio and rate reasoning to solve real-world and mathematical problems (Finding the scale factor $\tfrac{16}{1} = 16$ that turns the ratio gap into the real $16$-foot gap, then computing both heights as $48$ and $64$ feet.)

⭐ This AMC 8 problem only needs Grade 6 ratio reasoning — scale a small $3{:}4$ pair up until the gap matches!

Problem

Toolkit + CCSS Solution

Understand

Plan

Execute — Answer: B

Review

CCSS standards used (min grade 6)

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