AMC 8 · 2000 · #24

Grade 7 geometry-2d

Archetype Arithmetic Expression Decomposition

angle-sum-triangleisosceles-trianglesupplementary-angles identify-subproblemscasework ↑ Prerequisites: angle-sum-triangleisosceles-triangle

📏 Medium solution 💡 4 insights 📊 Diagram

Problem

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

Pick an answer.

(A)

$48^\circ$

(B)

$60^\circ$

(C)

$72^\circ$

(D)

$80^\circ$

(E)

$90^\circ$

View mode:

Toolkit + CCSS Solution

Understand

Restated: In the figure, points $A$, $G$, $F$ form a triangle with $\angle A = 20^\circ$ and equal base angles $\angle AFG = \angle AGF$. Lines through $F$ also create triangle $BFD$. Find $\angle B + \angle D$.

Givens: $\angle A = 20^\circ$ in triangle $AGF$; $\angle AFG = \angle AGF$ (triangle $AGF$ is isosceles at $A$); $F$ lies on segment $AD$ (so $A$, $F$, $D$ are collinear); $F$ lies on segment $BE$, with $G$ on the same ray from $F$ as $B$ (so ray $FG$ = ray $FB$); Answer choices: (A) $48^\circ$, (B) $60^\circ$, (C) $72^\circ$, (D) $80^\circ$, (E) $90^\circ$

Unknowns: The sum $\angle B + \angle D$

Understand

Plan

Primary tool: #7 Identify Subproblems

Secondary: #1 Draw a Diagram

The figure looks busy, but the relevant information lives in just two triangles: $AGF$ (where $\angle A = 20^\circ$ and the base angles are equal) and $BFD$ (whose interior angles include $\angle B$ and $\angle D$). Tool #7 (Identify Subproblems) splits the figure along these two triangles, linked at point $F$. Tool #1 (Draw a Diagram) is the sidekick: mark the known $20^\circ$ at $A$, label the matching base angles, then use the straight line $AFD$ to carry that information from one triangle to the other. No algebra, just the triangle-angle-sum rule applied twice.

Execute — Answer: D

#7 Identify Subproblems 7.G.B.5 Step 1

Solve subproblem 1: find the base angle in triangle $AGF$.
The three angles must add to $180^\circ$, and the two base angles are equal, so call each one $x$.

$20^\circ + x + x = 180^\circ \;\Rightarrow\; 2x = 160^\circ \;\Rightarrow\; x = 80^\circ$, so $\angle AFG = 80^\circ$

💡 An isosceles triangle with one $20^\circ$ vertex angle must have two $80^\circ$ base angles.

#1 Draw a Diagram 7.G.B.5 Step 2

Transfer that result across point $F$.
Because $A$, $F$, $D$ lie on one straight line, $\angle AFG$ and $\angle GFD$ form a linear pair and add to $180^\circ$.

$$\angle GFD = 180^\circ - \angle AFG = 180^\circ - 80^\circ = 100^\circ$$

💡 The straight segment $AD$ acts as a bridge — whatever angle sits on one side of $F$ leaves $180^\circ$ minus that angle on the other side.

#7 Identify Subproblems 4.G.A.1 Step 3

Identify the angle of triangle $BFD$ at vertex $F$.
Point $G$ lies on ray $FB$ (both are on the same side of $F$ along line $BE$), so the ray $FG$ and ray $FB$ point in the same direction.
That means $\angle BFD$ and $\angle GFD$ are the very same angle.

$$\angle BFD = \angle GFD = 100^\circ$$

💡 Replacing $G$ with $B$ on the same ray doesn't change the angle — angles depend on the ray's direction, not on which point you name on it.

#7 Identify Subproblems 7.G.B.5 Step 4

Solve subproblem 2: apply the triangle-angle-sum rule to triangle $BFD$.

$$\angle B + \angle D + \angle BFD = 180^\circ \;\Rightarrow\; \angle B + \angle D = 180^\circ - 100^\circ = 80^\circ \;\Rightarrow\; \textbf{(D)}$$

💡 Once the third angle of a triangle is pinned down, the sum of the other two is forced — even without knowing each one individually.

[1] #7 7.G.B.5 Solve subproblem 1: find the base angle in triangle $AGF$. The three angles must

[2] #1 7.G.B.5 Transfer that result across point $F$. Because $A$, $F$, $D$ lie on one straight

[3] #7 4.G.A.1 Identify the angle of triangle $BFD$ at vertex $F$. Point $G$ lies on ray $FB$ (

[4] #7 7.G.B.5 Solve subproblem 2: apply the triangle-angle-sum rule to triangle $BFD$.

Review

Reasonableness: The two unknown angles $\angle B$ and $\angle D$ can each take many values (the figure doesn't fix them separately), yet the problem expects a single number — that's already a hint that only the *sum* is determined, exactly what the triangle-angle-sum rule provides once $\angle BFD$ is known. The arithmetic checks: $20 + 80 + 80 = 180$ in triangle $AGF$, $80 + 100 = 180$ on line $AD$, and $\angle B + \angle D + 100 = 180$ in triangle $BFD$, giving $80^\circ$ — choice (D). The answer is also positive and less than $180^\circ$, as any pair of triangle angles must be.

Alternative: Tool #5 (Look for a Pattern) via the exterior-angle shortcut: $\angle AFG$ is the exterior angle of triangle $BFD$ at $F$ (because $A$ is on the extension of segment $DF$ past $F$). The exterior-angle theorem says an exterior angle equals the sum of the two remote interior angles, so $\angle B + \angle D = \angle AFG = 80^\circ$ in a single step — same answer (D), one line of work.

CCSS standards used (min grade 7)

7.G.B.5 Use facts about supplementary, complementary, vertical, and adjacent angles in a multi-step problem to write and solve simple equations for an unknown angle in a figure (Applying the triangle-angle-sum rule in triangles $AGF$ and $BFD$, and using the supplementary pair $\angle AFG + \angle GFD = 180^\circ$ to carry information across the shared vertex $F$.)
4.G.A.1 Draw points, lines, line segments, rays, angles, and identify these in two-dimensional figures (Recognizing that ray $FG$ and ray $FB$ point in the same direction along line $BE$, which lets us replace $\angle GFD$ with the triangle-$BFD$ angle $\angle BFD$.)

⭐ The figure looks tangled, but only two triangles do the work: $AGF$ on top and $BFD$ on the bottom, meeting at $F$. The isosceles top triangle pins $\angle AFG = 80^\circ$; the straight line through $F$ flips that to $\angle BFD = 100^\circ$; and the triangle-angle-sum rule in $BFD$ forces $\angle B + \angle D = 80^\circ$ — choice (D).

Problem

Toolkit + CCSS Solution

Understand

Plan

Execute — Answer: D

Review

CCSS standards used (min grade 7)

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