Hard Level Worksheet
Very Short Answer Questions (1 Mark Each)
(1) State the SSS similarity criterion for triangles. If the
Perfect! SSS similarity requires all three sides to be in the same proportion.
(2) Write the condition for two triangles to be congruent using SAS criterion.
If
Excellent! SAS congruence requires exact equality, not just proportion.
(3) If two triangles are similar, what can you say about their corresponding angles?
Corresponding angles are
Correct! Similar triangles always have equal corresponding angles.
(4) Write the ratio of the areas of two similar triangles if the ratio of their corresponding sides is 5 : 7. Area ratio =
Great! Area ratio is always the square of the side ratio.
(5) In a right triangle, if the hypotenuse and one side are equal to the hypotenuse and one side of another right triangle, what criterion of congruence is used?
Perfect! RHS is specifically designed for right-angled triangles.
Short Answer Questions (2 Marks Each)
Note: Answer each question with complete proof and detailed calculations. Write down the answers on sheet and submit to the school subject teacher.
(1) In △ABC, AB = AC and D is a point on BC such that AD is perpendicular to BC. Show that BD = DC.
(2) In △PQR, PQ = PR and S is a point on QR such that PS is the bisector of ∠QPR. Prove that QS = SR.
Long Answer Questions (4 Marks Each)
Note: Answer each question with complete proof and detailed calculations. Write down the answers on sheet and submit to the school subject teacher.
(1) In △ABC, DE ∥ BC meets AB at D and AC at E. If AD = 3 cm, DB = 2 cm, and AE = 4.5 cm, find AC. AC =
(2) In △XYZ, XY = 6 cm, XZ = 8 cm, and YZ = 10 cm. XM is drawn such that M lies on YZ and XM ⊥ YZ. Find the area of △XYZ. Area =
(3) Prove that the ratio of the areas of two similar triangles is equal to the square of the ratio of their corresponding medians.
(4) In △ABC, AD is the median. Prove that
(5) In a right triangle, prove that the altitude drawn to the hypotenuse divides the triangle into two triangles which are each similar to the original triangle and to each other.
Part B: Objective Questions (1 Mark Each)
Choose the correct answer and write the option (a/b/c/d)
(1) If two triangles are similar and the ratio of their areas is 9 : 16, the ratio of their corresponding sides is:
(a) 3 : 4 (b) 4 : 3 (c) 2 : 3 (d) 9 : 16
Correct! Side ratio = √(area ratio) = √(9:16) = 3:4.
(2) In △PQR, if ∠P = ∠Q, then PQ is:
(a) Equal to PR (b) Equal to QR (c) Equal to RQ (d) Equal to PQ
Correct! If ∠P = ∠Q, then sides opposite to these angles are equal: QR = PR.
(3) Which of the following is true for similar triangles?
(a) Corresponding angles are equal, corresponding sides are in proportion (b) Corresponding angles are in proportion, corresponding sides are equal (c) Corresponding angles are equal, corresponding sides are equal (d) None of these
Correct! Similar triangles have equal angles and proportional sides.
(4) In two similar triangles, the perimeters are in the ratio 5 : 7. The ratio of their corresponding sides is:
(a) 25 : 49 (b) 7 : 5 (c) 5 : 7 (d) 1 : 2
Correct! Perimeter ratio equals side ratio for similar triangles.
(5) The length of the median of an equilateral triangle with side 6 cm is:
(a) 3 cm (b)
Correct! Median =
(6) If △ABC ∼ △DEF and AB = 5 cm, DE = 8 cm, then the ratio of their areas is:
(a) 5 : 8 (b) 25 : 64 (c) 8 : 5 (d) 64 : 25
Correct! Area ratio =
(7) In a right triangle, the square of the hypotenuse is equal to:
(a) Sum of squares of the other two sides (b) Difference of squares of the other two sides (c) Twice the product of the other two sides (d) None of these
Correct! This is the Pythagorean theorem:
(8) The altitude drawn to the hypotenuse of a right triangle is 6 cm and one segment of the hypotenuse is 4 cm. The other segment is:
(a) 6 cm (b) 8 cm (c) 9 cm (d) 10 cm
Correct! Using
(9) In a triangle, if one side is doubled and the other is kept the same, the area:
(a) Remains the same (b) Doubles (c) Triples (d) Becomes half
Correct! If base is doubled, area =
(10) The basic proportionality theorem is also known as:
(a) Thales theorem (b) Pythagoras theorem (c) Midpoint theorem (d) Angle bisector theorem
Correct! Basic proportionality theorem is also called Thales theorem.
Let's explore advanced similarity relationships!!!
Excellent! You understand the three main similarity criteria perfectly.
True or False: Advanced Triangle Properties
Determine whether these advanced statements are True or False:
Comprehensive Hard Quiz
🎉 You Did It! What You've Mastered:
By completing this advanced worksheet, you now have expert knowledge of:
(1) Advanced Similarity Criteria: Complete mastery of AA, SSS, and SAS similarity with complex applications
(2) Geometric Mean Relationships: Understanding altitude relationships in right triangles and their applications
(3) Complex Theorem Applications: Apollonius theorem, Basic Proportionality theorem, and advanced geometric relationships
(4) Coordinate Triangle Analysis: Using coordinate geometry for complex triangle problems and verifications
(5) Advanced Proof Techniques: Multi-step similarity proofs, chain reasoning, and complex geometric arguments
(6) Real-World Problem Solving: Indirect measurement, map scales, architectural applications, and practical geometry
(7) Mensuration Mastery: Heron's formula, area ratios, median properties, and centroid applications
(8) Right Triangle Specialization: Altitude properties, geometric means, and Pythagorean applications
(9) Construction Techniques: Advanced triangle constructions using complex given conditions
(10) Trigonometry Preparation: Special right triangles, angle relationships, and ratio foundations
(11) Complex Similarity Applications: Nested triangles, parallel line theorems, and proportional reasoning
(12) Advanced Verification Methods: Multiple approaches to checking geometric solutions and relationships
(13) Mathematical Rigor: Formal proof writing, logical reasoning, and geometric argumentation
(14) Problem Strategy Development: Systematic approaches to complex multi-step geometric problems
(15) Integration of Concepts: Connecting similarity, congruence, coordinate geometry, and mensuration
Exceptional mastery of advanced triangle geometry achieved - ready for higher mathematics!