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JEE Main

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JEE Main MCQ & Objective Questions

The JEE Main exam is a crucial step for students aspiring to enter prestigious engineering colleges in India. It tests not only knowledge but also the ability to apply concepts effectively. Practicing MCQs and objective questions is essential for scoring better, as it helps in familiarizing students with the exam pattern and enhances their problem-solving skills. Engaging with practice questions allows students to identify important questions and strengthen their exam preparation.

What You Will Practise Here

  • Fundamental concepts of Physics, Chemistry, and Mathematics
  • Key formulas and their applications in problem-solving
  • Important definitions and theories relevant to JEE Main
  • Diagrams and graphical representations for better understanding
  • Numerical problems and their step-by-step solutions
  • Previous years' JEE Main questions for real exam experience
  • Time management strategies while solving MCQs

Exam Relevance

The topics covered in JEE Main are not only significant for the JEE exam but also appear in various CBSE and State Board examinations. Many concepts are shared with the NEET syllabus, making them relevant across multiple competitive exams. Common question patterns include conceptual applications, numerical problems, and theoretical questions that assess a student's understanding of core subjects.

Common Mistakes Students Make

  • Misinterpreting the question stem, leading to incorrect answers
  • Neglecting units in numerical problems, which can change the outcome
  • Overlooking negative marking and not managing time effectively
  • Relying too heavily on rote memorization instead of understanding concepts
  • Failing to review and analyze mistakes from practice tests

FAQs

Question: How can I improve my speed in solving JEE Main MCQ questions?
Answer: Regular practice with timed quizzes and focusing on shortcuts can significantly enhance your speed.

Question: Are the JEE Main objective questions similar to previous years' papers?
Answer: Yes, many questions are based on previous years' patterns, so practicing them can be beneficial.

Question: What is the best way to approach JEE Main practice questions?
Answer: Start with understanding the concepts, then attempt practice questions, and finally review your answers to learn from mistakes.

Now is the time to take charge of your preparation! Dive into solving JEE Main MCQs and practice questions to test your understanding and boost your confidence for the exam.

Q. What is the equilibrium constant expression for the reaction: aA + bB ⇌ cC + dD?
  • A. K = [C]^c [D]^d / [A]^a [B]^b
  • B. K = [A]^a [B]^b / [C]^c [D]^d
  • C. K = [C]^c [D]^d
  • D. K = [A]^a [B]^b
Q. What is the equivalent of 1 liter in cubic meters?
  • A. 0.001 m³
  • B. 0.01 m³
  • C. 0.1 m³
  • D. 1 m³
Q. What is the equivalent resistance of a 10Ω and a 5Ω resistor connected in parallel?
  • A. 3.33Ω
  • B. 7.5Ω
  • C. 15Ω
  • D.
Q. What is the equivalent resistance of a 6Ω and a 3Ω resistor connected in parallel?
  • A.
  • B.
  • C. 1.5Ω
  • D.
Q. What is the equivalent resistance of a circuit with a 10 ohm and a 5 ohm resistor in series?
  • A. 15 ohms
  • B. 5 ohms
  • C. 10 ohms
  • D. 20 ohms
Q. What is the equivalent resistance of a circuit with two 10Ω resistors in series and one 5Ω resistor in parallel with them?
  • A.
  • B. 10Ω
  • C. 15Ω
  • D. 20Ω
Q. What is the equivalent resistance of a circuit with two resistors R1 = 10Ω and R2 = 10Ω in parallel?
  • A.
  • B. 10Ω
  • C. 20Ω
  • D. 15Ω
Q. What is the equivalent resistance of three resistors of 2 ohms, 3 ohms, and 6 ohms connected in series?
  • A. 1 ohm
  • B. 3 ohms
  • C. 11 ohms
  • D. 12 ohms
Q. What is the equivalent resistance of three resistors of 2Ω, 3Ω, and 5Ω connected in parallel?
  • A.
  • B.
  • C. 0.83Ω
  • D. 10Ω
Q. What is the equivalent resistance of three resistors of 2Ω, 3Ω, and 6Ω connected in series?
  • A. 11Ω
  • B. 10Ω
  • C.
  • D. 12Ω
Q. What is the equivalent resistance of three resistors of 2Ω, 3Ω, and 6Ω connected in parallel?
  • A.
  • B.
  • C.
  • D.
Q. What is the equivalent resistance of three resistors of values 2Ω, 3Ω, and 5Ω connected in parallel?
  • A.
  • B.
  • C. 0.83Ω
  • D. 10Ω
Q. What is the equivalent resistance of three resistors of values 2Ω, 3Ω, and 6Ω connected in parallel?
  • A.
  • B.
  • C.
  • D.
Q. What is the equivalent resistance of three resistors, 2Ω, 3Ω, and 6Ω, connected in series?
  • A. 11Ω
  • B.
  • C.
  • D.
Q. What is the equivalent resistance of three resistors, R1, R2, and R3, connected in series?
  • A. R1 + R2 + R3
  • B. 1/(1/R1 + 1/R2 + 1/R3)
  • C. R1 * R2 * R3
  • D. R1 - R2 - R3
Q. What is the equivalent resistance of two resistors of 10 ohms and 20 ohms connected in series?
  • A. 30 ohms
  • B. 20 ohms
  • C. 10 ohms
  • D. 5 ohms
Q. What is the equivalent resistance of two resistors of 4Ω and 12Ω connected in parallel?
  • A.
  • B.
  • C.
  • D.
Q. What is the equivalent resistance of two resistors of 5 ohms and 10 ohms connected in parallel?
  • A. 3.33 ohms
  • B. 15 ohms
  • C. 5 ohms
  • D. 7.5 ohms
Q. What is the equivalent resistance of two resistors of 5Ω and 10Ω connected in parallel?
  • A. 3.33Ω
  • B.
  • C. 7.5Ω
  • D. 15Ω
Q. What is the equivalent resistance of two resistors, 6 ohms and 3 ohms, connected in series?
  • A. 2 ohms
  • B. 3 ohms
  • C. 9 ohms
  • D. 18 ohms
Q. What is the equivalent resistance of two resistors, 6Ω and 3Ω, connected in series?
  • A.
  • B.
  • C.
  • D. 18Ω
Q. What is the equivalent weight of H2SO4 if its molar mass is 98 g/mol?
  • A. 49 g
  • B. 98 g
  • C. 196 g
  • D. 24.5 g
Q. What is the escape velocity for a satellite to leave Earth's gravitational field?
  • A. 7.9 km/s
  • B. 11.2 km/s
  • C. 9.8 km/s
  • D. 5.0 km/s
Q. What is the escape velocity for a satellite to leave the Earth's gravitational field?
  • A. 7.9 km/s
  • B. 11.2 km/s
  • C. 9.8 km/s
  • D. 5.0 km/s
Q. What is the escape velocity for a satellite to leave the Earth's gravitational influence?
  • A. 11.2 km/s
  • B. 7.9 km/s
  • C. 9.8 km/s
  • D. 15.0 km/s
Q. What is the escape velocity from the surface of a planet with a radius of 3R and mass 4M?
  • A. √(8GM/R)
  • B. √(6GM/R)
  • C. √(4GM/R)
  • D. √(10GM/R)
Q. What is the escape velocity from the surface of a planet with a radius of 4R and mass 2M?
  • A. 2√(GM/R)
  • B. √(8GM/R)
  • C. √(2GM/R)
  • D. 4√(GM/R)
Q. What is the escape velocity from the surface of a planet with mass M and radius R?
  • A. √(2GM/R)
  • B. √(GM/R)
  • C. √(2R/G)
  • D. √(G/R)
Q. What is the escape velocity from the surface of the Earth?
  • A. 7.9 km/s
  • B. 11.2 km/s
  • C. 9.8 km/s
  • D. 15 km/s
Q. What is the escape velocity from the surface of the Earth? (g = 9.8 m/s^2, R = 6.4 x 10^6 m)
  • A. 7.9 km/s
  • B. 11.2 km/s
  • C. 9.8 km/s
  • D. 5.0 km/s
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