Only 2% of people can solve this. Are you a genius? | Summary and Q&A

TL;DR

Given a triangle within a larger triangle with specific angles and lengths, the challenge is to find the unknown angle using basic geometry, not trigonometry.

Key Insights

• 🔺 The problem involves finding an unknown angle in a triangle using basic geometry principles.
• 🔺 By analyzing the given angles and lengths, we can identify patterns and relationships in the triangles.
• 🔺 The use of isosceles and equilateral triangles helps us derive additional angle measures.
• 🔺 By noticing congruent triangles, we can transfer information from one triangle to another.

Transcript

good day and welcome to the tech math Channel problem I have for you today is we have a triangle in fact we have two triangles we have a little triangle sitting inside a bigger triangle we know the following we know this little angle here is 20° we know this angle here is 80° we also know that this length here is equal to this length here what we'r... Read More

Questions & Answers

Q: How do we determine the angle measure of the triangle's corner labeled as A, using basic geometry?

To find angle A, we subtract the known angles of 80° and 20° from 180° (total degrees in a triangle). Thus, A equals 80°.

Q: What does the fact that angle A and angle B are equal, and the lengths on both sides are equal, indicate about the larger triangle?

The equality of angles A and B, as well as the equality of the lengths on both sides, confirms that the larger triangle is isosceles.

Q: How can we determine the angles in the equilateral triangle drawn off one of the sides?

Since an equilateral triangle has equal side lengths and angles, we know that each angle in the equilateral triangle is 60°, as 180° divided by 3 equals 60°.

Q: How do we calculate the angle measure of angle EBC in the larger triangle?

Subtracting the angle measure of the equilateral triangle (60°) from the angle measure of ABC (80°) gives us the measure of angle EBC, which is 20°.

Summary & Key Takeaways

• The problem involves two triangles, one inside the other, with known angles and lengths.

• By analyzing the angles and lengths, we can determine that both triangles are isosceles and mark the equal lengths accordingly.

• An equilateral triangle is then drawn off one of the sides, allowing us to determine the angles within it.

• With this information, we can continue to analyze the angles in other parts of the larger triangle, ultimately finding the value of the unknown angle.