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Medical Entrance MCQ & Objective Questions

Preparing for medical entrance exams is a crucial step for aspiring doctors in India. Mastering MCQs and objective questions can significantly enhance your exam performance. By practicing these questions, you not only familiarize yourself with the exam format but also strengthen your understanding of important concepts and topics essential for scoring better.

What You Will Practise Here

Key concepts in Biology, Chemistry, and Physics relevant to medical entrance.
Important formulas and definitions that frequently appear in exams.
Diagrams and illustrations to help visualize complex processes.
Practice questions based on previous years' medical entrance exams.
Conceptual clarity through detailed explanations of difficult topics.
Strategies for tackling tricky MCQs and objective questions.
Time management techniques for effective exam preparation.

Exam Relevance

Medical entrance topics are integral to various examinations like NEET, JEE, and state board assessments. These subjects often feature MCQs that test your grasp of fundamental concepts and application skills. Common question patterns include multiple-choice questions that assess both theoretical knowledge and practical understanding, making it vital to practice regularly with important Medical Entrance questions for exams.

Common Mistakes Students Make

Overlooking the importance of reading questions carefully, leading to misinterpretation.
Neglecting to revise basic concepts, which can result in confusion during exams.
Relying solely on rote memorization instead of understanding the underlying principles.
Failing to practice time management, which can hinder performance in timed exams.

FAQs

Question: What are Medical Entrance MCQ questions?
Answer: Medical Entrance MCQ questions are multiple-choice questions designed to test your knowledge and understanding of subjects relevant to medical entrance exams.

Question: How can I improve my performance in Medical Entrance objective questions?
Answer: Regular practice of MCQs, understanding key concepts, and reviewing previous years' papers can significantly improve your performance.

Start your journey towards success by solving practice MCQs today! Test your understanding and build confidence as you prepare for your medical entrance exams.

NEET

Q. A car moving at 15 m/s comes to a stop in 5 seconds. What is its acceleration? (2019)

A. -2 m/s²
B. -3 m/s²
C. -4 m/s²
D. -5 m/s²

Solution

Using the formula: acceleration = (final velocity - initial velocity) / time. Acceleration = (0 - 15) / 5 = -3 m/s².

Correct Answer: A — -2 m/s²

Q. A charge of +1 μC is placed in an electric field of strength 1000 N/C. What is the force experienced by the charge? (2023)

A. 0.001 N
B. 0.01 N
C. 1 N
D. 10 N

Solution

Force F = qE = (1 × 10^-6 C)(1000 N/C) = 0.001 N.

Correct Answer: B — 0.01 N

Q. A charge of +10 μC is placed in an electric field of 2000 N/C. What is the force experienced by the charge? (2023)

A. 20 N
B. 200 N
C. 2 N
D. 0.2 N

Solution

Force F = qE = (10 × 10^-6 C) * (2000 N/C) = 0.02 N = 20 N.

Correct Answer: A — 20 N

Q. A charge of +10 µC is placed in an electric field of strength 2000 N/C. What is the force acting on the charge? (2023)

A. 20 N
B. 200 N
C. 2 N
D. 0.2 N

Solution

Force F = qE = (10 × 10^-6 C) * (2000 N/C) = 0.02 N = 20 N.

Correct Answer: A — 20 N

Q. A charge of +5 μC is placed in an electric field of 1000 N/C. What is the work done in moving the charge 0.2 m in the direction of the field? (2022)

A. 1 J
B. 0.1 J
C. 0.5 J
D. 2 J

Solution

Work done W = F * d = (E * q) * d = (1000 N/C * 5 × 10^-6 C) * 0.2 m = 0.1 J.

Correct Answer: B — 0.1 J

Q. A charge of +5 µC is placed in an electric field of 300 N/C. What is the work done in moving the charge 0.2 m in the direction of the field? (2019)

A. 30 J
B. 12 J
C. 6 J
D. 3 J

Solution

Work done W = F * d = (E * q) * d = (300 N/C * 5 × 10^-6 C) * 0.2 m = 0.3 J.

Correct Answer: C — 6 J

Q. A charge of -2 µC is placed in an electric field of 500 N/C. What is the direction of the force acting on the charge? (2023)

A. Towards the positive charge
B. Away from the positive charge
C. No force
D. Depends on the field strength

Solution

The force on a negative charge is in the direction opposite to the electric field, hence towards the positive charge.

Correct Answer: A — Towards the positive charge

Q. A circuit contains a 12V battery and two resistors of 4Ω and 6Ω in parallel. What is the total current supplied by the battery? (2019)

A. 1.2 A
B. 2 A
C. 3 A
D. 4 A

Solution

First, find the equivalent resistance R_eq = 1/(1/4 + 1/6) = 2.4Ω. Then, I = V/R_eq = 12V/2.4Ω = 5 A.

Correct Answer: C — 3 A

Q. A circuit has a 15V battery and a total resistance of 5Ω. What is the total current flowing through the circuit? (2023)

A. 1A
B. 2A
C. 3A
D. 4A

Solution

Using Ohm's law, I = V/R = 15V/5Ω = 3A.

Correct Answer: C — 3A

Q. A circuit has a 9V battery and a 3Ω resistor. What is the voltage drop across the resistor? (2022)

A. 3V
B. 6V
C. 9V
D. 12V

Solution

The voltage drop across the resistor is equal to the battery voltage in a simple circuit: 9V.

Correct Answer: C — 9V

Q. A circuit has a current of 2A and a resistance of 6Ω. What is the voltage across the circuit? (2020)

A. 6V
B. 12V
C. 8V
D. 10V

Solution

Using Ohm's Law, V = I * R = 2A * 6Ω = 12V.

Correct Answer: B — 12V

Q. A circuit has a current of 3A and a resistance of 6Ω. What is the voltage across the circuit? (2019)

A. 9V
B. 18V
C. 3V
D. 6V

Solution

Using Ohm's Law, V = I * R = 3A * 6Ω = 18V.

Correct Answer: A — 9V

Q. A circuit has a current of 5A and a resistance of 10Ω. What is the power consumed in the circuit? (2020)

A. 25W
B. 50W
C. 75W
D. 100W

Solution

Power (P) can be calculated using P = I^2 * R = (5A)^2 * 10Ω = 25 * 10 = 250W.

Correct Answer: B — 50W

Q. A circuit has a current of 5A and a resistance of 2Ω. What is the power consumed in the circuit? (2020)

A. 10W
B. 25W
C. 50W
D. 100W

Solution

Power (P) can be calculated using the formula P = I^2 * R = (5A)^2 * 2Ω = 25W.

Correct Answer: B — 25W

Q. A circuit has a current of 5A and a resistance of 2Ω. What is the voltage across the circuit? (2020)

A. 10V
B. 5V
C. 2.5V
D. 15V

Solution

Using Ohm's Law, V = I * R = 5A * 2Ω = 10V.

Correct Answer: A — 10V

Q. A circular loop of wire carrying current produces a magnetic field. What is the shape of the magnetic field lines? (2020)

A. Straight lines
B. Concentric circles
C. Ellipses
D. Spirals

Solution

The magnetic field lines around a circular loop of wire are concentric circles centered on the axis of the loop.

Correct Answer: B — Concentric circles

Q. A circular loop of wire carrying current produces a magnetic field. What is the shape of the magnetic field lines inside the loop? (2020)

A. Straight lines
B. Concentric circles
C. Parallel lines
D. Uniform field

Solution

Inside the loop, the magnetic field lines are nearly uniform and parallel, indicating a strong and consistent magnetic field.

Correct Answer: D — Uniform field

Q. A cyclist is moving at a speed of 10 m/s. If he doubles his speed, how much more kinetic energy will he have? (2023)

A. 4 times
B. 2 times
C. 3 times
D. 1.5 times

Solution

Kinetic Energy is proportional to the square of the speed. If speed is doubled, KE increases by a factor of 2^2 = 4.

Correct Answer: A — 4 times

Q. A cyclist is moving with a speed of 10 m/s. If he doubles his speed, how much more kinetic energy will he have? (2023)

A. 4 times
B. 2 times
C. 3 times
D. 1.5 times

Solution

Kinetic Energy is proportional to the square of the speed. If speed is doubled, KE increases by a factor of 2^2 = 4.

Correct Answer: A — 4 times

Q. A cyclist is moving with a speed of 15 m/s. If the mass of the cyclist and the bicycle is 75 kg, what is the kinetic energy? (2022)

A. 8437.5 J
B. 1687.5 J
C. 5625 J
D. 2250 J

Solution

Kinetic Energy (KE) = 1/2 * m * v^2 = 1/2 * 75 kg * (15 m/s)^2 = 8437.5 J.

Correct Answer: A — 8437.5 J

Q. A cyclist travels at a speed of 10 m/s for 15 seconds. What distance does he cover? (2022)

A. 100 m
B. 150 m
C. 200 m
D. 250 m

Solution

Distance = speed * time = 10 m/s * 15 s = 150 m.

Correct Answer: B — 150 m

Q. A disc of radius R and mass M is rotating about its axis with an angular velocity ω. What is its angular momentum? (2020)

A. Iω
B. MωR²
C. 0.5MR²ω
D. MR²ω

Solution

The moment of inertia I of a disc about its axis is (1/2)MR². Therefore, angular momentum L = Iω = (1/2)MR²ω.

Correct Answer: A — Iω

Q. A disc of radius R and mass M is rotating about its axis with an angular velocity ω. What is the moment of inertia of the disc? (2020)

A. (1/2)MR²
B. (1/3)MR²
C. MR²
D. (1/4)MR²

Solution

The moment of inertia of a solid disc about its central axis is given by I = (1/2)MR².

Correct Answer: A — (1/2)MR²

Q. A disk and a ring of the same mass and radius are rolling down the same incline. Which one has a greater acceleration? (2019)

A. Disk
B. Ring
C. Both have the same acceleration
D. It depends on the mass

Solution

The disk has a smaller moment of inertia than the ring, resulting in greater acceleration down the incline.

Correct Answer: A — Disk

Q. A diverging lens has a focal length of -15 cm. What is the nature of the image formed when an object is placed at 10 cm from the lens? (2023)

A. Real and inverted
B. Virtual and upright
C. Real and upright
D. Virtual and inverted

Solution

A diverging lens always forms a virtual and upright image when the object is placed in front of it.

Correct Answer: B — Virtual and upright

Q. A flywheel is a device used to store rotational energy. If the moment of inertia of the flywheel is I and it rotates with an angular velocity ω, what is its rotational kinetic energy? (2020)

A. (1/2)Iω^2
B. (1/4)Iω^2
C. (1/3)Iω^2
D. (1/5)Iω^2

Solution

The rotational kinetic energy is given by K.E. = (1/2)Iω^2.

Correct Answer: A — (1/2)Iω^2

Q. A flywheel is rotating with an angular speed of 10 rad/s. If it is brought to rest in 5 seconds, what is the angular deceleration? (2020)

A. 2 rad/s²
B. 5 rad/s²
C. 10 rad/s²
D. 20 rad/s²

Solution

Using the formula α = (ω - ω₀)/t, we have α = (0 - 10)/5 = -2 rad/s², so the deceleration is 2 rad/s².

Correct Answer: B — 5 rad/s²

Q. A flywheel is rotating with an angular speed of 30 rad/s. If it comes to rest in 10 seconds, what is the angular deceleration? (2020)

A. 3 rad/s²
B. 6 rad/s²
C. 2 rad/s²
D. 1 rad/s²

Solution

Using the formula α = (ω - ω₀)/t, we have α = (0 - 30 rad/s) / 10 s = -3 rad/s².

Correct Answer: A — 3 rad/s²

Q. A flywheel is rotating with an angular velocity of 10 rad/s. If it is brought to rest in 5 seconds, what is the angular deceleration? (2020)

A. 2 rad/s²
B. 5 rad/s²
C. 10 rad/s²
D. 20 rad/s²

Solution

Angular deceleration α = (final angular velocity - initial angular velocity) / time = (0 - 10) / 5 = -2 rad/s².

Correct Answer: B — 5 rad/s²

Q. A flywheel is rotating with an angular velocity of 10 rad/s. If the moment of inertia of the flywheel is 2 kg·m², what is its rotational kinetic energy? (2020)

A. 100 J
B. 50 J
C. 20 J
D. 10 J

Solution

Rotational kinetic energy K.E. = (1/2)Iω² = (1/2)(2)(10)² = 100 J.

Correct Answer: B — 50 J

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