Gravitational Potential & Field for Competitive Exams

Gravitational Potential & Field

Q. A mass 'm' is lifted to a height 'h' above the Earth's surface. What is the change in gravitational potential energy?

A. mgh
B. mg(h + R)
C. mgR
D. 0

Solution

The change in gravitational potential energy when a mass m is lifted to a height h is given by ΔU = mgh.

Correct Answer: A — mgh

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Q. A mass m is lifted to a height h in a uniform gravitational field. What is the work done against gravity?

A. mgh
B. gh
C. mg
D. 0

Solution

The work done against gravity when lifting a mass m to a height h is given by W = mgh.

Correct Answer: A — mgh

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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.

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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.

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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.

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Q. At what distance from a mass M does the gravitational potential become zero?

A. At infinity
B. At the surface of the mass
C. At 1 meter
D. At 2 meters

Solution

The gravitational potential becomes zero at infinity, as V approaches zero as r approaches infinity.

Correct Answer: A — At infinity

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Q. At what point in a gravitational field is the gravitational potential constant?

A. At the center of the mass
B. At infinity
C. Along an equipotential surface
D. At the surface of the mass

Solution

The gravitational potential is constant along an equipotential surface.

Correct Answer: C — Along an equipotential surface

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Q. At what point in space is the gravitational potential energy of an object zero?

A. At the center of the Earth
B. At infinity
C. At the surface of the Earth
D. At the Moon

Solution

The gravitational potential energy is considered zero at infinity.

Correct Answer: B — At infinity

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Q. At what point in space is the gravitational potential zero?

A. At the center of the Earth.
B. At infinity.
C. At the surface of the Earth.
D. At the center of the Moon.

Solution

The gravitational potential is considered zero at infinity.

Correct Answer: B — At infinity.

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Q. How does the gravitational field strength vary with distance from a point mass?

A. It increases linearly.
B. It decreases with the square of the distance.
C. It remains constant.
D. It decreases linearly.

Solution

The gravitational field strength decreases with the square of the distance from the point mass.

Correct Answer: B — It decreases with the square of the distance.

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Q. How does the gravitational potential change as you move away from a planet?

A. It increases.
B. It decreases.
C. It remains constant.
D. It oscillates.

Solution

The gravitational potential decreases as you move away from a planet.

Correct Answer: B — It decreases.

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Q. How does the gravitational potential energy of a system of two masses change as they move closer together?

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

Solution

The gravitational potential energy decreases as the two masses move closer together.

Correct Answer: B — It decreases.

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Q. How does the gravitational potential energy of an object change when it is lifted to a height 'h' above the ground?

A. It decreases.
B. It increases.
C. It remains the same.
D. It becomes zero.

Solution

The gravitational potential energy increases as the object is lifted to a height 'h' above the ground.

Correct Answer: B — It increases.

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Q. If the distance from a mass is doubled, how does the gravitational field strength change?

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

Solution

The gravitational field strength is inversely proportional to the square of the distance, so it becomes one-fourth.

Correct Answer: C — It becomes one-fourth.

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Q. If the distance from the center of the Earth is doubled, how does the gravitational potential change?

A. It doubles.
B. It halves.
C. It becomes zero.
D. It quadruples.

Solution

The gravitational potential is inversely proportional to the distance, so if the distance is doubled, the potential halves.

Correct Answer: B — It halves.

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Q. If the distance from the center of the Earth is doubled, how does the gravitational field strength change?

A. It doubles.
B. It halves.
C. It becomes zero.
D. It quadruples.

Solution

The gravitational field strength varies inversely with the square of the distance, so if the distance is doubled, the field strength becomes 1/4.

Correct Answer: B — It halves.

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Q. If the distance from the center of the Earth is doubled, what happens to the gravitational field strength?

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

Solution

The gravitational field strength varies inversely with the square of the distance from the center of the Earth, so if the distance is doubled, the field strength becomes one-fourth.

Correct Answer: C — It becomes one-fourth.

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Q. If the gravitational field strength at a point is 10 N/kg, what is the gravitational potential at that point assuming the reference point is at infinity?

A. -10 J/kg
B. 10 J/kg
C. 0 J/kg
D. -5 J/kg

Solution

The gravitational potential V is related to the gravitational field strength g by V = -g * r. If we consider r to be 1 meter, V = -10 * 1 = -10 J/kg.

Correct Answer: A — -10 J/kg

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Q. If the gravitational field strength at a point is 10 N/kg, what is the gravitational potential at that point assuming it is 2 meters from the mass?

A. -20 J/kg
B. -10 J/kg
C. 0 J/kg
D. -5 J/kg

Solution

Gravitational potential V = -g * r = -10 * 2 = -20 J/kg.

Correct Answer: A — -20 J/kg

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Q. If the gravitational field strength at a point is 10 N/kg, what is the gravitational potential at that point, assuming it is 2 meters above the reference point?

A. -20 J/kg
B. -10 J/kg
C. 0 J/kg
D. -5 J/kg

Solution

Gravitational potential V = -g * h = -10 N/kg * 2 m = -20 J/kg.

Correct Answer: A — -20 J/kg

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Q. If the gravitational field strength at a point is 10 N/kg, what is the gravitational potential at that point assuming it is at infinity?

A. 0 J/kg
B. -10 J/kg
C. 10 J/kg
D. -5 J/kg

Solution

The gravitational potential is negative and is given by V = -g * r. At infinity, V approaches 0, so at a field strength of 10 N/kg, V = -10 J/kg.

Correct Answer: B — -10 J/kg

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Q. If the gravitational field strength at a point is 10 N/kg, what is the gravitational potential at that point assuming it is zero at infinity?

A. -10 J/kg
B. -5 J/kg
C. 0 J/kg
D. 10 J/kg

Solution

The gravitational potential V is related to the gravitational field strength g by V = -g * r. If we consider r to be 1 meter, V = -10 * 1 = -10 J/kg.

Correct Answer: A — -10 J/kg

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Q. If the gravitational field strength at a point is 10 N/kg, what is the gravitational potential at that point assuming it is at a distance of 2 m from the mass?

A. -20 J/kg
B. -10 J/kg
C. 0 J/kg
D. -5 J/kg

Solution

Gravitational potential V = -g * r = -10 * 2 = -20 J/kg.

Correct Answer: A — -20 J/kg

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Q. If the gravitational field strength at a point is 10 N/kg, what is the gravitational potential at that point, assuming it is at a distance of 2 m from the mass creating the field?

A. -20 J/kg
B. -10 J/kg
C. 0 J/kg
D. -5 J/kg

Solution

Gravitational potential V = -g * r = -10 N/kg * 2 m = -20 J/kg.

Correct Answer: A — -20 J/kg

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Q. If the gravitational field strength at a point is 10 N/kg, what is the gravitational potential at that point, assuming it is at a distance of 2 meters from the mass creating the field?

A. -20 J/kg
B. -10 J/kg
C. 0 J/kg
D. -5 J/kg

Solution

Gravitational potential V = -g * r = -10 N/kg * 2 m = -20 J/kg.

Correct Answer: A — -20 J/kg

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Q. If the gravitational field strength at a point is 10 N/kg, what is the gravitational potential at that point, assuming it is 2 meters from the mass creating the field?

A. -20 J/kg
B. -10 J/kg
C. 0 J/kg
D. -5 J/kg

Solution

Gravitational potential V = -g * r = -10 N/kg * 2 m = -20 J/kg.

Correct Answer: A — -20 J/kg

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Q. If the gravitational potential at a point is -15 J/kg and the gravitational field strength is constant at 3 N/kg, what is the distance from the mass?

A. 5 m
B. 10 m
C. 15 m
D. 20 m

Solution

Using V = -g * r, we have -15 = -3 * r, thus r = 15/3 = 5 m.

Correct Answer: B — 10 m

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Q. If the gravitational potential at a point is -20 J/kg and the gravitational field strength is 4 N/kg, what is the distance from the mass?

A. 5 m
B. 10 m
C. 15 m
D. 20 m

Solution

Using V = -g * r, we have -20 = -4 * r, thus r = 20/4 = 5 m.

Correct Answer: B — 10 m

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Q. If the gravitational potential at a point is -30 J/kg and the gravitational field strength is 5 N/kg, what is the distance from the mass?

A. 6 m
B. 3 m
C. 5 m
D. 4 m

Solution

Using V = -g * r, we have -30 = -5 * r, thus r = 30/5 = 6 m.

Correct Answer: B — 3 m

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Q. If the gravitational potential at a point is -30 J/kg, what is the gravitational field strength at that point?

A. 3 N/kg
B. 30 N/kg
C. 0 N/kg
D. Cannot be determined

Solution

The gravitational field strength can be found using the relation E = -dV/dr. If V = -30 J/kg, E = 3 N/kg.

Correct Answer: A — 3 N/kg

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Gravitational Potential & Field MCQ & Objective Questions

Understanding "Gravitational Potential & Field" is crucial for students preparing for school exams and competitive tests in India. This topic not only forms a significant part of the physics syllabus but also features prominently in various objective questions and MCQs. Practicing these questions can enhance your grasp of concepts and improve your exam scores, making it essential for effective exam preparation.

What You Will Practise Here

Definition and significance of gravitational potential and gravitational field.
Key formulas related to gravitational potential energy and field strength.
Concept of equipotential surfaces and their properties.
Understanding the relationship between gravitational force and potential.
Diagrams illustrating gravitational fields and potential variations.
Applications of gravitational potential in real-world scenarios.
Problem-solving techniques for objective questions in exams.

Exam Relevance

The topic of "Gravitational Potential & Field" is frequently tested in CBSE, State Boards, NEET, and JEE. Students can expect questions that assess both conceptual understanding and numerical problem-solving skills. Common question patterns include direct application of formulas, conceptual MCQs, and scenario-based problems that require critical thinking.

Common Mistakes Students Make

Confusing gravitational potential with gravitational field strength.
Neglecting the significance of negative values in gravitational potential.
Misinterpreting equipotential surfaces and their implications.
Overlooking units and dimensions while solving numerical problems.
Failing to apply the concept of gravitational potential in practical examples.

FAQs

Question: What is gravitational potential?
Answer: Gravitational potential is the work done per unit mass to bring an object from infinity to a point in a gravitational field.

Question: How is gravitational field strength defined?
Answer: Gravitational field strength is defined as the force experienced by a unit mass placed in the field.

Now that you understand the significance of "Gravitational Potential & Field," it's time to take action! Solve practice MCQs and test your understanding to excel in your exams. Your success is just a question away!

Gravitational Potential & Field

Gravitational Potential & Field MCQ & Objective Questions

What You Will Practise Here

Exam Relevance

Common Mistakes Students Make

FAQs

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