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Potential Questions

Practice 15 Potential questions with detailed answers and explanations. Free MCQs, PYQs, and mock test questions for NEET, JEE, GATE, SSC and more.

๐Ÿ“š
15
Total Questions
๐ŸŸข
5
Easy
๐ŸŸก
7
Medium
๐Ÿ”ด
3
Hard
Practice by Exam:Physics(15)

About Potential โ€” practice questions, PYQs & concepts

Potential is a frequently-tested topic on Physics. ExamTest.live currently lists 15 Potential questions spanning previous-year papers from 2026 to 2026, each with worked solutions and a step-by-step explanation. Use the filters on this page to focus on a specific exam, difficulty level or year โ€” every answer key is free, no sign-up required.

Potential weight in competitive exams

Across our Potential question bank, the largest sources are Physics (15). Click any exam chip above to drill down to that exam-specific question set.

How to use this page

  • Start easy: 5 easy Potential questions are available โ€” build fluency before moving up.
  • Target weak years: Use the year filter to focus on the most recent 2026 paper or older PYQs you have not attempted.
  • Time yourself: Every question shows the average solve time so you can benchmark your speed against other students.
  • Read every explanation: Even on questions you got right โ€” the explanation often surfaces a faster approach you can reuse.

All Potential Questions(1โ€“15 of 15)

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Q1mediummcqPhysicsAIEEE 20062026
0% accuracy
Two spherical conductors and of radii and are separated by a distance of and are uniformly charged. If the spheres are connected by a conducting wire, then in equilibrium, the ratio of the magnitude of the electric fields at the surface of spheres and is:
Q2easymcqPhysicsNEET 2020 E12026
In a certain region of space with volume , the electric potential is found to be throughout. The magnitude of electric field in this region is:
Q3mediummcqPhysicsNEET 20212026
Twenty seven drops of same size are charged at each. They combine to form a bigger drop. Calculate the potential of the bigger drop.
Q4easymcqPhysicsNEET 20222026
Two hollow conducting spheres of radii and () have equal charges. The potential would be:
Q5hardmcqPhysicsNEET 20232026
Two bodies of mass and are placed at a distance . The gravitational potential on the line joining the bodies where the gravitational field equals zero, will be ():
Q6easymcqPhysicsNEET (UG) 20242026
A thin spherical shell is charged by some source. The potential difference between the two points (center) and (on the surface) shown in the figure is (Take , , ):
image
Q7hardmcqPhysicsAIEEE 20032026
A thin spherical conducting shell of radius has a charge . Another charge is placed at the centre of the shell. The electrostatic potential at a point at a distance from the centre of the shell is:
Q8mediummcqPhysicsFIITJEE AIEEE 2011 (Set Q)2026
Two bodies of masses and are placed at a distance . The gravitational potential at a point on the line joining them where the gravitational field is zero is:
Q9hardmcqPhysicsPhysics
Three concentric spherical shells have radii and () and have surface charge densities and respectively. If and denote the potentials of the three shells, then for , we have:
Q10mediummcqPhysicsPhysics
The potential difference that must be applied to stop the fastest photo electrons emitted by a nickel surface, having work function , when ultraviolet light of falls on it, must be:
Q11mediummcqPhysicsPhysics
A particle of mass is at the centre of a spherical shell of mass and radius . Gravitational potential at distance from centre is:
Q12mediummcqPhysicsPhysics
Electric potential . The electric field at is:
Q13mediummcqPhysicsPhysics
Two metallic spheres of radii and are given charges of and , respectively. If these are connected by a conducting wire, the final charge on the bigger sphere is:
Q14easymcqPhysicsPhysics
Four point charges and are placed, one at each corner of the square. The relation between and for which the potential at the centre of the square is zero is:
Q15easymcqPhysicsPhysics
and are three points in a uniform electric field directed along the positive x-axis. is further left than , and is further left than . The electric potential is:
image

Frequently Asked Questions

How many Potential questions are on ExamTest.live?โ–ผ
We have 15 Potential questions spread across 1 pages, covering easy, medium, and hard difficulty levels with detailed explanations.
Are Potential MCQs free?โ–ผ
Yes. All Potential questions, answers, and explanations on ExamTest.live are completely free. No account or subscription required.
Which exams include Potential questions?โ–ผ
Potential questions are commonly asked in Physics. You can filter by exam using the links above.
How do I practice Potential questions effectively?โ–ผ
Start with easy questions to build confidence, then tackle medium and hard ones. Use the filter buttons to sort by difficulty. Reveal the answer only after attempting each question, and read the explanation thoroughly.