NTSE Sample Paper

The National Talent Search Examination shortly known as NTSE is a scholarship exam conducted all over India under the NTS scheme to provide scholarships to the talented and eligible candidates. It is one of the most prestigious scholarships offered in the country. The NTSE exam is known for its well-designed question paper and its level of examination. Students who are going to appear for the exam must practice NTSE Exam Paper in order to score well in the exam.

Practicing sample papers is one of the most important stages for the exam preparation. The sample papers will help students get familiar with the question paper pattern and the level of questions asked in the exam. Candidates are suggested to practice NTSE Sample Paper on a regular basis to excel in this scholarship exam. Practicing NTSE sample papers for class 10 on a regular basis will also expose candidates to their current preparation level so they can analyze their weak sections and work on them properly.

Advantages of Solving NTSE Sample Paper

  • Time Management

The time duration for NTSE exam is one of the main barriers for students. Solving sample papers regularly can help students to improve their speed and accuracy while solving NTSE exam papers.

  • Revision

Solving NTSE Sample Papers PDF is one of the best ways to revise for the scholarship exam as students can go through all the topics at once.

  • Strengthen Basics

The exam tests a student’s knowledge of various basic and fundamental concepts like conversion and units from physics, reactions in physics, etc.

  • Improve Critical Thinking Skills

Solving NTSE 2017 sample papers on a regular basis can sharpen a student’s problem-solving skill and improve their critical thinking skill.

Students can download and solve NTSE Sample Papers from the below links.

Sample Paper for Class 10 NTSE

NTSE Sample Paper 1

Stay tuned with BYJU’S to get the latest news and notification on NTSE exam along with syllabus, exam pattern, and more.

Practise This Question

An electron (mass = 9×1031kg, charge =1.6×1019 C ) whose kinetic energy is 7.2×1020 J is moving in a circular orbit in a magnetic field of  9×105 weber/m2. The radius of the orbit is