Major Competitive Exams

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Major Competitive Exams

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Major Competitive Exams MCQ & Objective Questions

Major Competitive Exams play a crucial role in shaping the academic and professional futures of students in India. These exams not only assess knowledge but also test problem-solving skills and time management. Practicing MCQs and objective questions is essential for scoring better, as they help in familiarizing students with the exam format and identifying important questions that frequently appear in tests.

What You Will Practise Here

Key concepts and theories related to major subjects
Important formulas and their applications
Definitions of critical terms and terminologies
Diagrams and illustrations to enhance understanding
Practice questions that mirror actual exam patterns
Strategies for solving objective questions efficiently
Time management techniques for competitive exams

Exam Relevance

The topics covered under Major Competitive Exams are integral to various examinations such as CBSE, State Boards, NEET, and JEE. Students can expect to encounter a mix of conceptual and application-based questions that require a solid understanding of the subjects. Common question patterns include multiple-choice questions that test both knowledge and analytical skills, making it essential to be well-prepared with practice MCQs.

Common Mistakes Students Make

Rushing through questions without reading them carefully
Overlooking the negative marking scheme in MCQs
Confusing similar concepts or terms
Neglecting to review previous years’ question papers
Failing to manage time effectively during the exam

FAQs

Question: How can I improve my performance in Major Competitive Exams?
Answer: Regular practice of MCQs and understanding key concepts will significantly enhance your performance.

Question: What types of questions should I focus on for these exams?
Answer: Concentrate on important Major Competitive Exams questions that frequently appear in past papers and mock tests.

Question: Are there specific strategies for tackling objective questions?
Answer: Yes, practicing under timed conditions and reviewing mistakes can help develop effective strategies.

Start your journey towards success by solving practice MCQs today! Test your understanding and build confidence for your upcoming exams. Remember, consistent practice is the key to mastering Major Competitive Exams!

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Q. A runner completes a 5 km race in 25 minutes. What is his speed in km/h? (2023)

A. 10 km/h
B. 12 km/h
C. 14 km/h
D. 15 km/h

Solution

Speed = Distance / Time = 5 km / (25/60) hours = 5 / (5/12) = 12 km/h.

Correct Answer: A — 10 km/h

Q. A rural development program costs $500,000 and is expected to benefit 10,000 families. What is the cost per family?

A. $40
B. $50
C. $60
D. $70

Solution

The cost per family is $500,000 / 10,000 = $50.

Correct Answer: B — $50

Q. A rural development scheme aims to build 50 houses at a cost of ₹1.5 lakhs each. What is the total cost of the project?

A. ₹50 lakhs
B. ₹60 lakhs
C. ₹70 lakhs
D. ₹75 lakhs

Solution

Total cost = 50 houses * ₹1.5 lakhs = ₹75,000,000 or ₹75 lakhs.

Correct Answer: B — ₹60 lakhs

Q. A salary is increased by 25%. If the original salary is $40,000, what is the new salary?

A. $50,000
B. $45,000
C. $48,000
D. $52,000

Solution

New Salary = Original Salary + (25% of Original Salary) = 40000 + (0.25 * 40000) = 40000 + 10000 = $50,000.

Correct Answer: B — $45,000

Q. A salary of $3000 is adjusted for inflation of 6%. What will be the new salary?

A. $3180
B. $3200
C. $3150
D. $3100

Solution

New salary = 3000 + (6/100 * 3000) = 3000 + 180 = $3180

Correct Answer: A — $3180

Q. A salary of $3000 is decreased by 10%. What is the new salary?

A. $2700
B. $2800
C. $2900
D. $3000

Solution

New Salary = Original Salary - (10% of Original Salary) = 3000 - (0.1 * 3000) = 3000 - 300 = $2700.

Correct Answer: A — $2700

Q. A satellite completes one orbit around the Earth in 90 minutes. How many orbits does it complete in 24 hours?

A. 16
B. 24
C. 32
D. 48

Solution

Total minutes in 24 hours = 24 × 60 = 1,440 minutes. Orbits = 1,440 minutes / 90 minutes/orbit = 16 orbits.

Correct Answer: C — 32

Q. A satellite is in a circular orbit around the Earth. How does the gravitational potential energy change as it moves to a higher orbit?

A. It increases.
B. It decreases.
C. It remains constant.
D. It becomes zero.

Solution

As the satellite moves to a higher orbit, its gravitational potential energy increases.

Correct Answer: A — It increases.

Q. A satellite is in a circular orbit around the Earth. If it moves to a higher orbit, what happens to its potential energy?

A. It increases.
B. It decreases.
C. It remains constant.
D. It becomes zero.

Solution

As the satellite moves to a higher orbit, its gravitational potential energy increases due to the increase in distance from the Earth's center.

Correct Answer: A — It increases.

Q. A satellite is in a circular orbit around the Earth. If its orbital radius is 4R, what is the gravitational force acting on it compared to that at the surface of the Earth?

A. 1/4
B. 1/16
C. 1/8
D. 1/2

Solution

The gravitational force decreases with the square of the distance. At 4R, the force is 1/(4^2) = 1/16 of the force at the surface.

Correct Answer: B — 1/16

Q. A satellite is in a circular orbit around the Earth. If its orbital radius is tripled, how does the orbital speed change?

A. It triples
B. It doubles
C. It remains the same
D. It is reduced to one-third

Solution

Orbital speed v = √(GM/R). If R is tripled, v becomes √(GM/(3R)) = v/√3, which is reduced to one-third.

Correct Answer: D — It is reduced to one-third

Q. A satellite is in a circular orbit around the Earth. If its orbital radius is tripled, how does the gravitational force acting on it change?

A. It triples
B. It halves
C. It becomes one-ninth
D. It remains the same

Solution

Gravitational force is inversely proportional to the square of the radius. If radius is tripled, force becomes 1/3² = 1/9.

Correct Answer: C — It becomes one-ninth

Q. A satellite is in a circular orbit around the Earth. If its speed is doubled, what will happen to its orbital radius?

A. It will remain the same.
B. It will double.
C. It will increase by a factor of four.
D. It will decrease by a factor of four.

Solution

If the speed of a satellite is doubled, the orbital radius will decrease by a factor of four, as orbital speed is inversely proportional to the square root of the radius.

Correct Answer: D — It will decrease by a factor of four.

Q. A satellite is in a circular orbit around the Earth. If its speed is doubled, what happens to the radius of its orbit?

A. It remains the same
B. It doubles
C. It increases by a factor of four
D. It decreases by a factor of four

Solution

If the speed of a satellite is doubled, the radius of its orbit decreases by a factor of four due to the relationship between speed and radius in circular motion.

Correct Answer: D — It decreases by a factor of four

Q. A satellite is in a circular orbit around the Earth. If its speed is increased, what will happen to its orbit?

A. It will remain circular
B. It will become elliptical
C. It will crash into the Earth
D. It will escape Earth's gravity

Solution

Increasing the speed of a satellite in a circular orbit will cause its orbit to become elliptical.

Correct Answer: B — It will become elliptical

Q. A satellite is in a circular orbit around the Earth. If the radius of the orbit is halved, what happens to the gravitational force acting on the satellite?

A. It remains the same
B. It doubles
C. It quadruples
D. It decreases by half

Solution

The gravitational force is inversely proportional to the square of the distance; halving the radius increases the force by a factor of four.

Correct Answer: C — It quadruples

Q. A satellite is in a circular orbit around the Earth. If the radius of the orbit is increased, what happens to the orbital speed of the satellite?

A. Increases
B. Decreases
C. Remains the same
D. Depends on the mass of the satellite

Solution

Orbital speed (v) = √(GM/r). As r increases, v decreases.

Correct Answer: B — Decreases

Q. A satellite is in a circular orbit around the Earth. If the radius of the orbit is tripled, how does the orbital speed change?

A. It triples
B. It doubles
C. It remains the same
D. It decreases by a factor of √3

Solution

Orbital speed v = √(GM/r). If r is tripled, v decreases by a factor of √3.

Correct Answer: D — It decreases by a factor of √3

Q. A satellite is in a circular orbit around the Earth. If the radius of the orbit is 7000 km and the gravitational acceleration is 9.8 m/s², what is the speed of the satellite?

A. 5.5 km/s
B. 7.9 km/s
C. 9.8 km/s
D. 11.2 km/s

Solution

Speed (v) = √(g*r) = √(9.8 m/s² * 7000 * 1000 m) = 7.9 km/s.

Correct Answer: B — 7.9 km/s

Q. A satellite is in a circular orbit around the Earth. If the radius of the orbit is 7000 km and the speed of the satellite is 7.9 km/s, what is the centripetal acceleration?

A. 7.9 m/s²
B. 9.8 m/s²
C. 11.2 m/s²
D. 14.0 m/s²

Solution

Centripetal acceleration a_c = v²/r = (7.9 km/s)² / (7000 km) = 0.00063 km/s² = 6.3 m/s².

Correct Answer: A — 7.9 m/s²

Q. A satellite is in a circular orbit around the Earth. If the radius of the orbit is doubled, what happens to the gravitational force acting on the satellite?

A. It doubles
B. It halves
C. It becomes four times
D. It becomes one-fourth

Solution

Gravitational force ∝ 1/r². If radius is doubled, force becomes 1/(2²) = 1/4.

Correct Answer: D — It becomes one-fourth

Q. A satellite is in a circular orbit around the Earth. If the satellite's speed is increased, what will happen to its orbit?

A. It will remain circular
B. It will become elliptical
C. It will crash into the Earth
D. It will escape Earth's gravity

Solution

Increasing the speed of a satellite in a circular orbit will cause it to move into an elliptical orbit.

Correct Answer: B — It will become elliptical

Q. A satellite is in a circular orbit around the Earth. What happens to its gravitational potential energy as it moves to a higher orbit?

A. It increases.
B. It decreases.
C. It remains constant.
D. It becomes zero.

Solution

As the satellite moves to a higher orbit, its distance from the Earth increases, leading to an increase in gravitational potential energy.

Correct Answer: A — It increases.

Q. A satellite is in a circular orbit around the Earth. What is the angular momentum of the satellite if its mass is m, its orbital radius is r, and its orbital speed is v?

A. mv^2/r
B. mvr
C. mr^2
D. mv

Solution

Angular momentum L = mvr, where v is the orbital speed and r is the radius of the orbit.

Correct Answer: B — mvr

Q. A satellite is in a circular orbit around the Earth. What is the expression for the centripetal force acting on the satellite? (2022)

A. GMm/r^2
B. mv^2/r
C. mω^2r
D. All of the above

Solution

All the given expressions represent the centripetal force acting on the satellite in different forms.

Correct Answer: D — All of the above

Q. A satellite is in a circular orbit around the Earth. What is the gravitational potential energy of the satellite?

A. It is positive.
B. It is negative.
C. It is zero.
D. It is constant.

Solution

The gravitational potential energy of a satellite in orbit is negative due to the attractive force of gravity.

Correct Answer: B — It is negative.

Q. A satellite is in a circular orbit around the Earth. What is the relationship between its orbital speed v and the radius r of the orbit?

A. v = sqrt(G * M / r)
B. v = G * M / r^2
C. v = r * sqrt(G / M)
D. v = G * r / M

Solution

The orbital speed of a satellite is given by v = sqrt(G * M / r), where M is the mass of the Earth.

Correct Answer: A — v = sqrt(G * M / r)

Q. A satellite is in a circular orbit around the Earth. What is the relationship between its orbital speed (v) and the radius of the orbit (r)?

A. v = sqrt(G * M / r)
B. v = G * M / r
C. v = r / G * M
D. v = G * r / M

Solution

The orbital speed of a satellite is given by v = sqrt(G * M / r), where M is the mass of the Earth.

Correct Answer: A — v = sqrt(G * M / r)

Q. A satellite is in a circular orbit around the Earth. What is the relationship between the gravitational force and the centripetal force acting on the satellite? (2022)

A. Gravitational force > Centripetal force
B. Gravitational force < Centripetal force
C. Gravitational force = Centripetal force
D. No relationship

Solution

For a satellite in a stable orbit, the gravitational force provides the necessary centripetal force, hence they are equal.

Correct Answer: C — Gravitational force = Centripetal force

Q. A satellite is in a circular orbit at a height of 300 km above the Earth's surface. What is the approximate speed of the satellite?

A. 7.9 km/s
B. 5.0 km/s
C. 10.0 km/s
D. 3.5 km/s

Solution

The orbital speed can be calculated using the formula v = √(GM/r). For a height of 300 km, the speed is approximately 7.9 km/s.

Correct Answer: A — 7.9 km/s

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