NCERT Class 7 Maths MCQ : Congruence of Triangles
Welcome to our comprehensive “Congruence of Triangles MCQs” page, designed to help you achieve excellence in competitive exams, including UPSC IAS and many others. Congruence of triangles is a fundamental geometric concept, and a strong command over it is crucial for various sectors. Our curated collection of multiple-choice questions (MCQs) is sourced from previous year papers, offering you an effective and efficient way to prepare for exams.
Key Features:
- In-Depth Coverage: Our MCQs encompass various aspects of triangle congruence, ensuring you gain a comprehensive understanding of this important geometry topic.
- Real Exam Practice: By solving actual questions from past exams, you’ll become accustomed to the question patterns and format, boosting your confidence on exam day.
- Sector-Inclusive: These MCQs cater to candidates from different sectors, making this page an adaptable resource for anyone seeking to enhance their knowledge of triangle congruence.
- Skill Enhancement: Proficiency in triangle congruence goes beyond exams; it enhances your problem-solving skills, proving invaluable in everyday life.
By engaging with our MCQs, you’ll not only be well-prepared for your upcoming exams but also equipped with a strong foundation in the congruence of triangles, a skill that can benefit you in numerous academic and professional pursuits.
NCERT Class 7 Maths : Congruence of Triangles MCQ – NCERT Class 7 MCQ
Question:
‘Under a given correspondence, two triangles are congruent if the three sides of the one are equal to the three corresponding sides of the other. 'The above is known as
Question:
‘Under a given correspondence, two triangles are congruent if two sides and the angle included between them in one of the triangles are equal to the corresponding sides and the angle included between them of the other triangle.’
The above is known as
Question:
‘Under a given correspondence, two triangles are congruent if two angles and the side included between them in one of the triangles are equal to the corresponding angles and the side included between them of the other triangle.’
The above is known as
Question:
‘Under a given correspondence, two right-angled triangles are congruent if the hypotenuse and a leg of one of the triangles are equal to the hypotenuse and the corresponding leg of the other triangle.’
The above is known as
Question:
For two given triangles ABC and PQR, how many matchings are possible?
Question:
The symbol for congruence is
Question:
The symbol for correspondence is
Question:
If ∆ ABC = ∆ PQR, then AB¯¯¯¯¯¯¯¯ corresponds to
Question:
If ∆ ABC = ∆ PQR, then BC¯¯¯¯¯¯¯¯ corresponds to
Question:
If ∆ ABC = ∆ PQR, then CA¯¯¯¯¯¯¯¯ corresponds to
Question:
If ∆ ABC = ∆ PQR, then ∠A corresponds to
Question:
If ∆ ABC = ∆ PQR, then ∠B corresponds to
Question:
If ∆ ABC= ∆ PQR, then ∠C corresponds to
Question:
We want to show that ∆ ART = ∆ PEN and we have to use SSS criterion. We have AR = PE and RT = EN. What more we need to show?
Question:
We want to show that ∆ ART = ∆ PEN. We have to use SAS criterion. We have ∠T = ∠N, RT = EN. What more we need to show?
Question:
We want to show that ∆ ART = ∆ PEN. We have to use ASA criterion. We have AT = PN, ∠A = ∠P. What more we need to show?
Question:
Which congruence criterion do you use in the following?
Question:
Which congruence criterion do you use in the following?
Question:
Which congruence criterion do you use in the following?
Question:
Which congruence criterion do you use in the following?
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