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Use the Law of Sines to solve (if possible) the triangle. If two solutions exist, find both. Round your answers to two decimal places. (If not possible, enter IMPOSSIBLE.) A = 72°, a = 34, b = 21

User Patrick Roocks
by
2.9k points

2 Answers

23 votes
23 votes

Answer:


B\approx35.97^\circ\\C\approx72.03^\circ\\c\approx34

Explanation:

Law of Sines


(sinA)/(a)=(sinB)/(b)=(sinC)/(c)

Given information


A=72^\circ\\a=34\\b=21

Check if solutions exist

As
A=72^\circ < 90^\circ and that
a > b\rightarrow 34 > 21, then there exists only one possible triangle by the Ambiguous Case

Solve the triangle


(sin(72^\circ))/(34)=(sin(B))/(21)\\ \\ 21sin(72^\circ)=34sin(B)\\\\(21sin(72^\circ))/(34)=sin(B)\\ \\B=sin^(-1)((21sin(72^\circ))/(34))\\ \\B=35.97394255^\circ\approx35.97^\circ


A+B+C=180^\circ\\\\72^\circ+35.97394255^\circ+C=180^\circ\\\\107.97394255^\circ+C=180^\circ\\\\C=72.02605745^\circ\approx72.03^\circ


(sin(72^\circ))/(34)=(sin(72.02605745^\circ))/(c)\\\\c*sin(72^\circ)=34sin(72.02605745^\circ)\\\\c=(34sin(72.02605745^\circ))/(sin(72^\circ))\\ \\c=34.00502065\approx34

User Morton
by
2.9k points
30 votes
30 votes

Answer:

Given: A = 72°, a = 34, b = 21

Calculated: B = 35.97°, C = 72.03°, c = 34.00

Explanation:


(\sin A)/(a) = (\sin B)/(b)


(\sin 72^\circ)/(34) = (\sin B)/(21)


\sin B = (21\sin 72^\circ)/(34)


\sin B = 0.5874


B = \sin^(-1) 0.5874


B = 35.97^\circ

C = 180° - 72° - 35.97°

C = 72.03°


(\sin A)/(a) = (\sin C)/(c)


(\sin 72^\circ)/(34) = (\sin 72.03^\circ)/(c)


c = (\sin 72.03^\circ * 34)/(\sin 72^\circ)


c = 34.00

Given: A = 72°, a = 34, b = 21

Calculated: B = 35.97°, C = 72.03°, c = 34.00

User James Jacques
by
3.2k points